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Commit 92329aa7 authored by Mark Jones's avatar Mark Jones Committed by Mark K Jones
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Add script to replay HMS KPP run 

With the new HMS chambers, need to have separate HMS KPP
  replay script.

Also add gscalers.param to the HMS/GEN/general.param
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DBASE/HMS/GEN/KPP_Spring_2017/general.param
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......@@ -8,6 +8,7 @@ cminch=2.54
#include "PARAM/GEN/gdebug.param"
#include "PARAM/GEN/gtarget.param"
#include "PARAM/GEN/gbeam.param"
#include "PARAM/GEN/gscalers.param"
; General HMS parameter files
; Note: hmsflags.param includes spectrometer offsets and options.
......
DBASE/HMS/GEN/general.param
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......@@ -8,6 +8,7 @@ cminch=2.54
#include "PARAM/GEN/gdebug.param"
#include "PARAM/GEN/gtarget.param"
#include "PARAM/GEN/gbeam.param"
#include "PARAM/GEN/gscalers.param"
; General HMS parameter files
; Note: hmsflags.param includes spectrometer offsets and options.
......
DEF-files/HMS/PRODUCTION/hstackana_production_cuts_kpp.def 0 → 100644
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# Report file for HMS stack
Block: RawDecode
Pedestal_event g.evtyp == 99
HMS_trig_1_event g.evtyp == 1
HMS_trig_2_event g.evtyp == 2
HMS_trig_3_event g.evtyp == 3
HMS_trig_4_event g.evtyp == 4
HMS_trig_5_event g.evtyp == 5
HMS_trig_6_event g.evtyp == 6
HMS_event HMS_trig_1_event || HMS_trig_2_event || HMS_trig_3_event || HMS_trig_4_event || HMS_trig_5_event || HMS_trig_6_event
RawDecode_master 1
Block: Decode
hms_trigs HMS_event
Decode_master HMS_event
Block: CoarseTracking
CoarseTracking_master HMS_event
#add cuts to stricter times and apply them to drift distances (HMS 6 GeV Drift Chambers)
time_cut1 H.dc.1x1.time > 0 && H.dc.1x1.time < 250
time_cut2 H.dc.1y1.time > 0 && H.dc.1y1.time < 250
time_cut3 H.dc.1u1.time > 0 && H.dc.1u1.time < 250
time_cut4 H.dc.1v1.time > 0 && H.dc.1v1.time < 250
time_cut5 H.dc.1y2.time > 0 && H.dc.1y2.time < 250
time_cut6 H.dc.1x2.time > 0 && H.dc.1x2.time < 250
time_cut7 H.dc.2x1.time > 0 && H.dc.2x1.time < 250
time_cut8 H.dc.2y1.time > 0 && H.dc.1y1.time < 250
time_cut9 H.dc.2u1.time > 0 && H.dc.2u1.time < 250
time_cut10 H.dc.2v1.time > 0 && H.dc.2v1.time < 250
time_cut11 H.dc.2y2.time > 0 && H.dc.2y2.time < 250
time_cut12 H.dc.2x2.time > 0 && H.dc.2x2.time < 250
hmsDC1Planes_large (H.dc.1x1.nhit+H.dc.1y1.nhit+H.dc.1u1.nhit+H.dc.1v1.nhit+H.dc.1x2.nhit+H.dc.1y2.nhit) >20
hmsDC2Planes_large (H.dc.2x1.nhit+H.dc.2y1.nhit+H.dc.2u1.nhit+H.dc.2v1.nhit+H.dc.2x2.nhit+H.dc.2y2.nhit) >20
hmsDC1_1hit_x1 H.dc.1x1.nhit == 1
hmsDC1_1hit_y1 H.dc.1y1.nhit == 1
hmsDC1_1hit_u1 H.dc.1u1.nhit == 1
hmsDC1_1hit_v1 H.dc.1v1.nhit == 1
hmsDC1_1hit_y2 H.dc.1y2.nhit == 1
hmsDC1_1hit_x2 H.dc.1x2.nhit == 1
hmsDC2_1hit_x1 H.dc.2x1.nhit == 1
hmsDC2_1hit_y1 H.dc.2y1.nhit == 1
hmsDC2_1hit_u1 H.dc.2u1.nhit == 1
hmsDC2_1hit_v1 H.dc.2v1.nhit == 1
hmsDC2_1hit_y2 H.dc.2y2.nhit == 1
hmsDC2_1hit_x2 H.dc.2x2.nhit == 1
h1hit1 H.dc.1x1.nhit >= 1
h1hit2 H.dc.1y1.nhit >= 1
h1hit3 H.dc.1u1.nhit >= 1
h1hit4 H.dc.1v1.nhit >= 1
h1hit5 H.dc.1y2.nhit >= 1
h1hit6 H.dc.1x2.nhit >= 1
h2hit1 H.dc.2x1.nhit >= 1
h2hit2 H.dc.2y1.nhit >= 1
h2hit3 H.dc.2u1.nhit >= 1
h2hit4 H.dc.2v1.nhit >= 1
h2hit5 H.dc.2y2.nhit >= 1
h2hit6 H.dc.2x2.nhit >= 1
hmsDC1Planes6hits (H.dc.1x1.nhit+H.dc.1y1.nhit+H.dc.1u1.nhit+H.dc.1v1.nhit+H.dc.1x2.nhit+H.dc.1y2.nhit) ==6
hmsDC2Planes6hits (H.dc.2x1.nhit+H.dc.2y1.nhit+H.dc.2u1.nhit+H.dc.2v1.nhit+H.dc.2x2.nhit+H.dc.2y2.nhit )==6
hmsDC1_5hits_x1 hmsDC1_1hit_y1&&hmsDC1_1hit_u1&&hmsDC1_1hit_v1&&hmsDC1_1hit_x2&&hmsDC1_1hit_y2
hmsDC1_6hits_x1 h1hit1&&hmsDC1_1hit_y1&&hmsDC1_1hit_u1&&hmsDC1_1hit_v1&&hmsDC1_1hit_x2&&hmsDC1_1hit_y2
hmsDC1_5hits_y1 hmsDC1_1hit_x1&&hmsDC1_1hit_u1&&hmsDC1_1hit_v1&&hmsDC1_1hit_x2&&hmsDC1_1hit_y2
hmsDC1_6hits_y1 h1hit2&&hmsDC1_1hit_x1&&hmsDC1_1hit_u1&&hmsDC1_1hit_v1&&hmsDC1_1hit_x2&&hmsDC1_1hit_y2
hmsDC1_5hits_u1 hmsDC1_1hit_x1&&hmsDC1_1hit_y1&&hmsDC1_1hit_v1&&hmsDC1_1hit_x2&&hmsDC1_1hit_y2
hmsDC1_6hits_u1 h1hit3&&hmsDC1_1hit_x1&&hmsDC1_1hit_y1&&hmsDC1_1hit_v1&&hmsDC1_1hit_x2&&hmsDC1_1hit_y2
hmsDC1_5hits_v1 hmsDC1_1hit_x1&&hmsDC1_1hit_y1&&hmsDC1_1hit_u1&&hmsDC1_1hit_x2&&hmsDC1_1hit_y2
hmsDC1_6hits_v1 h1hit4&&hmsDC1_1hit_x1&&hmsDC1_1hit_y1&&hmsDC1_1hit_u1&&hmsDC1_1hit_x2&&hmsDC1_1hit_y2
hmsDC1_5hits_x2 hmsDC1_1hit_x1&&hmsDC1_1hit_y1&&hmsDC1_1hit_u1&&hmsDC1_1hit_v1&&hmsDC1_1hit_y2
hmsDC1_6hits_x2 h1hit6&&hmsDC1_1hit_x1&&hmsDC1_1hit_y1&&hmsDC1_1hit_u1&&hmsDC1_1hit_v1&&hmsDC1_1hit_y2
hmsDC1_5hits_y2 hmsDC1_1hit_x1&&hmsDC1_1hit_y1&&hmsDC1_1hit_u1&&hmsDC1_1hit_v1&&hmsDC1_1hit_x2
hmsDC1_6hits_y2 h1hit5&&hmsDC1_1hit_x1&&hmsDC1_1hit_y1&&hmsDC1_1hit_u1&&hmsDC1_1hit_v1&&hmsDC1_1hit_x2
hmsDC2_5hits_x1 hmsDC2_1hit_y1&&hmsDC2_1hit_u1&&hmsDC2_1hit_v1&&hmsDC2_1hit_x2&&hmsDC2_1hit_y2
hmsDC2_6hits_x1 h2hit1&&hmsDC2_1hit_y1&&hmsDC2_1hit_u1&&hmsDC2_1hit_v1&&hmsDC2_1hit_x2&&hmsDC2_1hit_y2
hmsDC2_5hits_y1 hmsDC2_1hit_x1&&hmsDC2_1hit_u1&&hmsDC2_1hit_v1&&hmsDC2_1hit_x2&&hmsDC2_1hit_y2
hmsDC2_6hits_y1 h2hit2&&hmsDC2_1hit_x1&&hmsDC2_1hit_u1&&hmsDC2_1hit_v1&&hmsDC2_1hit_x2&&hmsDC2_1hit_y2
hmsDC2_5hits_u1 hmsDC2_1hit_x1&&hmsDC2_1hit_y1&&hmsDC2_1hit_v1&&hmsDC2_1hit_x2&&hmsDC2_1hit_y2
hmsDC2_6hits_u1 h2hit3&&hmsDC2_1hit_x1&&hmsDC2_1hit_y1&&hmsDC2_1hit_v1&&hmsDC2_1hit_x2&&hmsDC2_1hit_y2
hmsDC2_5hits_v1 hmsDC2_1hit_x1&&hmsDC2_1hit_y1&&hmsDC2_1hit_u1&&hmsDC2_1hit_x2&&hmsDC2_1hit_y2
hmsDC2_6hits_v1 h2hit4&&hmsDC2_1hit_x1&&hmsDC2_1hit_y1&&hmsDC2_1hit_u1&&hmsDC2_1hit_x2&&hmsDC2_1hit_y2
hmsDC2_5hits_x2 hmsDC2_1hit_x1&&hmsDC2_1hit_y1&&hmsDC2_1hit_u1&&hmsDC2_1hit_v1&&hmsDC2_1hit_y2
hmsDC2_6hits_x2 h2hit6&&hmsDC2_1hit_x1&&hmsDC2_1hit_y1&&hmsDC2_1hit_u1&&hmsDC2_1hit_v1&&hmsDC2_1hit_y2
hmsDC2_5hits_y2 hmsDC2_1hit_x1&&hmsDC2_1hit_y1&&hmsDC2_1hit_u1&&hmsDC2_1hit_v1&&hmsDC2_1hit_x2
hmsDC2_6hits_y2 h2hit5&&hmsDC2_1hit_x1&&hmsDC2_1hit_y1&&hmsDC2_1hit_u1&&hmsDC2_1hit_v1&&hmsDC2_1hit_x2
hms1HitsLt H.dc.Ch1.nhit <= H.dc.Ch1.maxhits && g.evtyp==1
hms2HitsLt H.dc.Ch2.nhit <= H.dc.Ch2.maxhits && g.evtyp==1
hmsHitsLt H.dc.Ch1.nhit <= H.dc.Ch1.maxhits && H.dc.Ch2.nhit <= H.dc.Ch2.maxhits && g.evtyp==1
hmsDC1PlanesGT (h1hit1 + h1hit2 + h1hit3 + h1hit4 + h1hit5 + h1hit6 )>=5
hmsDC2PlanesGT (h2hit1 + h2hit2 + h2hit3 + h2hit4 + h2hit5 + h2hit6 )>=5
hmsPlanesGT hmsDC1PlanesGT && hmsDC2PlanesGT
hmsHitsPlanes (H.dc.Ch1.nhit <= H.dc.Ch1.maxhits) && (H.dc.Ch2.nhit <= H.dc.Ch2.maxhits) && hmsPlanesGT
hSpacePoints H.dc.Ch1.spacepoints >= 1 && H.dc.Ch2.spacepoints >=1
hSpacePointsStub H.dc.stubtest==1 && H.dc.Ch1.spacepoints >=1 && H.dc.Ch2.spacepoints >=1
hFoundTrack H.dc.ntrack>0
hStubLT H.dc.stubtest==1
f1HSpacePoints hms1HitsLt && hmsDC1PlanesGT && H.dc.Ch1.spacepoints==0 && g.evtyp==1
f2HSpacePoints hms2HitsLt && hmsDC2PlanesGT && H.dc.Ch2.spacepoints==0 && g.evtyp==1
hTest1 hmsHitsPlanes && (!hSpacePoints)
hTest2 hSpacePoints && (!hStubLT)
Block: CoarseReconstruct
CoarseReconstruct_master HMS_event
Block: Tracking
Tracking_master HMS_event
Block: Reconstruct
Reconstruct_master HMS_event
cer_pmt1_elec H.cer.npe[0]>.5
cer_pmt2_elec H.cer.npe[0]>.5
cer_elec H.cer.npeSum>.5
cer_pi H.cer.npeSum<.5
HMSScinGood H.hod.goodscinhit == 1
HMSScinShould HMSScinGood
HMSScinShoulde HMSScinGood && H.cal.etotnorm > 0.6&& H.cal.etotnorm < 2.0&& H.cer.npeSum > 0.5
HMSScinShouldh HMSScinGood && H.cal.etotnorm <0.6&& H.cal.etotnorm>0.0&& H.cer.npeSum < 0.5
HMSScinDid HMSScinShould && H.dc.ntrack > 0
HMSScinDide HMSScinShoulde && H.dc.ntrack > 0
HMSScinDidh HMSScinShouldh && H.dc.ntrack > 0
goodHDC1x1 H.dc.1x1.nhit > 0 && H.dc.1x1.nhit < 3
goodHDC1y1 H.dc.1y1.nhit > 0 && H.dc.1y1.nhit < 3
goodHDC1u1 H.dc.1u1.nhit > 0 && H.dc.1u1.nhit < 3
goodHDC1v1 H.dc.1v1.nhit > 0 && H.dc.1v1.nhit < 3
goodHDC1y2 H.dc.1y2.nhit > 0 && H.dc.1y2.nhit < 3
goodHDC1x2 H.dc.1x2.nhit > 0 && H.dc.1x2.nhit < 3
goodHDC2x1 H.dc.2x1.nhit > 0 && H.dc.2x1.nhit < 3
goodHDC2y1 H.dc.2y1.nhit > 0 && H.dc.2y1.nhit < 3
goodHDC2u1 H.dc.2u1.nhit > 0 && H.dc.2u1.nhit < 3
goodHDC2v1 H.dc.2v1.nhit > 0 && H.dc.2v1.nhit < 3
goodHDC2y2 H.dc.2y2.nhit > 0 && H.dc.2y2.nhit < 3
goodHDC2x2 H.dc.2x2.nhit > 0 && H.dc.2x2.nhit < 3
goodHDC1 goodHDC1x1 && goodHDC1y1 && goodHDC1u1 && goodHDC1v1 && goodHDC1y2 && goodHDC1x2
goodHDC2 goodHDC2x1 && goodHDC2y1 && goodHDC2u1 && goodHDC2v1 && goodHDC2y2 && goodHDC2x2
bothGood goodHDC1 && goodHDC2
realhdc1x1 goodHDC1x1 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc1y1 goodHDC1y1 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc1u1 goodHDC1u1 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc1v1 goodHDC1v1 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc1y2 goodHDC1y2 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc1x2 goodHDC1x2 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc2x1 goodHDC2x1 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc2y1 goodHDC2y1 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc2u1 goodHDC2u1 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc2v1 goodHDC2v1 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc2y2 goodHDC2y2 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
realhdc2x2 goodHDC2x2 && ((H.dc.Ch1.spacepoints+H.dc.Ch2.spacepoints)>0)
hFound1Track H.dc.ntrack == 1
hFound2Track H.dc.ntrack == 2
hFound3Track H.dc.ntrack == 3
hFound4Track H.dc.ntrack == 4
hCleanTrack H.gtr.index > -1
1hCleanTrack H.gtr.index == 0
2hCleanTrack H.gtr.index == 1
3hCleanTrack H.gtr.index == 2
4hCleanTrack H.gtr.index == 3
anyhs1x H.hod.1x.nhits > 0
anyhs1y H.hod.1y.nhits > 0
anyhs2x H.hod.2x.nhits > 0
anyhs2y H.hod.2y.nhits > 0
goodhs1x H.hod.1x.nhits > 0 && H.hod.1x.nhits < 3
goodhs1y H.hod.1y.nhits > 0 && H.hod.1y.nhits < 3
goodhs1 goodhs1x && goodhs1y
goodhs2x H.hod.2x.nhits > 0 && H.hod.2x.nhits < 3
goodhs2y H.hod.2y.nhits > 0 && H.hod.2y.nhits < 3
goodhs2 goodhs2x && goodhs2y
goodhs1s2 goodhs1 && goodhs2
Block: Physics
Physics_master HMS_event
DEF-files/HMS/PRODUCTION/hstackana_production_kpp.def 0 → 100644
+ 604
0
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#********************
# Block Definitions *
#********************
block T.hms.*
block H.cer.*
block H.dc.*
block H.tr.*
block H.hod.*
block H.cal.*
block H.gtr.*
block H.kin.*
#********************
# HMS Gas Cherenkov *
#********************
#-----------------------------------------
# HMS Gas CER GOOD Occupancy and Multiplicity
#-----------------------------------------
TH1F hcer_good_occ 'HMS Cherenkov Good Occupancy; PMT Number; Number of Entries' H.cer.numGoodAdcHits 2 0.5 2.5
TH1F hcer_good_mult 'HMS Cherenkov Good Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits / PMT' H.cer.totNumGoodAdcHits 2 0.5 2.5
#-------------------------------------------------------------------------------
# HMS Gas CER GOOD Pulse Pedestal / Integral / Raw Integral / Amplitude / Time
# GOOD --> (passed errorFlag cut and pulsetime cuts oN Min/Max ADC Time Window)
#-------------------------------------------------------------------------------
TH2F hcer_good_pped_vs_pmt 'HMS Cherenkov Good Pulse Pedestal vs. PMT Number; PMT Number; Pulse Pedestal / 1 ADC Units' [I+1] H.cer.goodAdcPed 2 0.5 2.5 400 300 700
TH2F hcer_good_pi_vs_pmt 'HMS Cherenkov Good Pulse Integral vs. PMT Number; PMT Number; Pulse Integral / 50 ADC Units' [I+1] H.cer.goodAdcPulseInt 2 0.5 2.5 600 0 30000 H.cer.goodAdcPulseInt>0.0
TH2F hcer_good_pamp_vs_pmt 'HMS Cherenkov Good Pulse Amplitude vs. PMT Number; PMT Number; Pulse Amplitude / 20 ADC Units' [I+1] H.cer.goodAdcPulseAmp 2 0.5 2.5 200 0 4000 H.cer.goodAdcPulseAmp>0.0
TH2F hcer_good_ptime_vs_pmt 'HMS Cherenkov Good Pulse Time vs. PMT Number; PMT Number; Pulse Time / 10 ADC Units' [I+1] H.cer.goodAdcPulseTime 2 0.5 2.5 350 0 3500 H.cer.goodAdcPulseTime>0.0
#-----------------------------------
# HMS Gas CER Number of P.E. / PMT
#-----------------------------------
TH2F hcer_npe 'HMS Cherenkov Number of Photoelectrons vs. PMT Number; PMT Number; Number of Photoelectrons / PMT' [I+1] H.cer.npe 2 0.5 2.5 200 0 100 H.cer.npe>0.0
#----------------------------------
# HMS Gas CER TOTAL NUMBER OF P.E.
#----------------------------------
TH1F hcer_tot_npe 'HMS Cherenkov Total Number of Photoelectrons; Total Number of Photoelectrons; Number of Entries / 0.5 Photoelectrons' H.cer.npeSum 200 0 100 H.cer.npeSum>0.0
#--------------------------
# HMS Gas CER TRACK MATCHING
#--------------------------
TH1F hcer_trk_match 'HMS Gas Cherenkov Track Matches; PMT Number; Number of Tracks Matched' H.cer.numTracksMatched 2 0.5 2.5
TH1F hcer_trk_fired 'HMS Gas Cherenkov Tracks Fired; PMT Number; Number of Tracks Fired' H.cer.numTracksFired 2 0.5 2.5
#***************************
# HMS 6 GeV Drift Chambers *
#***************************
#-----------------
# HMS DC WIREMAP
#-----------------
TH1F hdc1x1_wirenum 'HMS DC 1X1 Wiremap; Wire Number; Number of Entries' H.dc.1x1.wirenum 113 0.5 113.5
TH1F hdc1y1_wirenum 'HMS DC 1Y1 Wiremap; Wire Number; Number of Entries' H.dc.1y1.wirenum 52 0.5 52.5
TH1F hdc1u1_wirenum 'HMS DC 1U1 Wiremap; Wire Number; Number of Entries' H.dc.1u1.wirenum 107 0.5 107.5
TH1F hdc1v1_wirenum 'HMS DC 1V1 Wiremap; Wire Number; Number of Entries' H.dc.1v1.wirenum 107 0.5 107.5
TH1F hdc1y2_wirenum 'HMS DC 1Y2 Wiremap; Wire Number; Number of Entries' H.dc.1y2.wirenum 52 0.5 52.5
TH1F hdc1x2_wirenum 'HMS DC 1X2 Wiremap; Wire Number; Number of Entries' H.dc.1x2.wirenum 113 0.5 113.5
TH1F hdc2x1_wirenum 'HMS DC 2X1 Wiremap; Wire Number; Number of Entries' H.dc.2x1.wirenum 113 0.5 113.5
TH1F hdc2y1_wirenum 'HMS DC 2Y1 Wiremap; Wire Number; Number of Entries' H.dc.2y1.wirenum 52 0.5 52.5
TH1F hdc2u1_wirenum 'HMS DC 2U1 Wiremap; Wire Number; Number of Entries' H.dc.2u1.wirenum 107 0.5 107.5
TH1F hdc2v1_wirenum 'HMS DC 2V1 Wiremap; Wire Number; Number of Entries' H.dc.2v1.wirenum 107 0.5 107.5
TH1F hdc2y2_wirenum 'HMS DC 2Y2 Wiremap; Wire Number; Number of Entries' H.dc.2y2.wirenum 52 0.5 52.5
TH1F hdc2x2_wirenum 'HMS DC 2X2 Wiremap; Wire Number; Number of Entries' H.dc.2x2.wirenum 113 0.5 113.5
#-----------------------------
# HMS DC DRIFT TIME PER PLANE
#-----------------------------
TH1F hdc1x1_drifttime 'HMS DC 1X1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.1x1.time 400 -50 350
TH1F hdc1y1_drifttime 'HMS DC 1Y1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.1y1.time 400 -50 350
TH1F hdc1u1_drifttime 'HMS DC 1U1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.1u1.time 400 -50 350
TH1F hdc1v1_drifttime 'HMS DC 1V1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.1v1.time 400 -50 350
TH1F hdc1y2_drifttime 'HMS DC 1Y2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.1y2.time 400 -50 350
TH1F hdc1x2_drifttime 'HMS DC 1X2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.1x2.time 400 -50 350
TH1F hdc2x1_drifttime 'HMS DC 2X1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.2x1.time 400 -50 350
TH1F hdc2y1_drifttime 'HMS DC 2Y1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.2y1.time 400 -50 350
TH1F hdc2u1_drifttime 'HMS DC 2U1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.2u1.time 400 -50 350
TH1F hdc2v1_drifttime 'HMS DC 2V1 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.2v1.time 400 -50 350
TH1F hdc2y2_drifttime 'HMS DC 2Y2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.2y2.time 400 -50 350
TH1F hdc2x2_drifttime 'HMS DC 2X2 Drift Time; Drift Time (ns); Number of Entries / 1 ns' H.dc.2x2.time 400 -50 350
#----------------------------------
# HMS DC DRIFT TIME VS. WIRENUMBER
#----------------------------------
TH2F hdc1x1_drifttime_vs_wirenum 'HMS DC 1X1 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.1x1.wirenum H.dc.1x1.time 113 0.5 113.5 600 -100 500
TH2F hdc1y1_drifttime_vs_wirenum 'HMS DC 1Y1 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.1y1.wirenum H.dc.1y1.time 52 0.5 52.5 600 -100 500
TH2F hdc1u1_drifttime_vs_wirenum 'HMS DC 1U1 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.1u1.wirenum H.dc.1u1.time 107 0.5 107.5 600 -100 500
TH2F hdc1v1_drifttime_vs_wirenum 'HMS DC 1V1 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.1v1.wirenum H.dc.1v1.time 107 0.5 107.5 600 -100 500
TH2F hdc1y2_drifttime_vs_wirenum 'HMS DC 1Y2 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.1y2.wirenum H.dc.1y2.time 52 0.5 52.5 600 -100 500
TH2F hdc1x2_drifttime_vs_wirenum 'HMS DC 1X2 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.1x2.wirenum H.dc.1x2.time 113 0.5 113.5 600 -100 500
TH2F hdc2x1_drifttime_vs_wirenum 'HMS DC 2X1 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.2x1.wirenum H.dc.2x1.time 113 0.5 113.5 600 -100 500
TH2F hdc2y1_drifttime_vs_wirenum 'HMS DC 2Y1 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.2y1.wirenum H.dc.2y1.time 52 0.5 52.5 600 -100 500
TH2F hdc2u1_drifttime_vs_wirenum 'HMS DC 2U1 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.2u1.wirenum H.dc.2u1.time 107 0.5 107.5 600 -100 500
TH2F hdc2v1_drifttime_vs_wirenum 'HMS DC 2V1 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.2v1.wirenum H.dc.2v1.time 107 0.5 107.5 600 -100 500
TH2F hdc2y2_drifttime_vs_wirenum 'HMS DC 2Y2 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.2y2.wirenum H.dc.2y2.time 52 0.5 52.5 600 -100 500
TH2F hdc2x2_drifttime_vs_wirenum 'HMS DC 2X2 Drift Time vs. Wire Number; Wire Number; Drift Time (ns)' H.dc.2x2.wirenum H.dc.2x2.time 113 0.5 113.5 600 -100 500
#---------------------------------
# HMS DC Drift Distance Per Plane
#---------------------------------
TH1F hdc1x1_ddist 'HMS 1X1 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.1x1.dist 28 -0.1 0.6
TH1F hdc1y1_ddist 'HMS 1Y1 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.1y1.dist 28 -0.1 0.6
TH1F hdc1u1_ddist 'HMS 1U1 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.1u1.dist 28 -0.1 0.6
TH1F hdc1v1_ddist 'HMS 1V1 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.1v1.dist 28 -0.1 0.6
TH1F hdc1y2_ddist 'HMS 1Y2 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.1y2.dist 28 -0.1 0.6
TH1F hdc1x2_ddist 'HMS 1X2 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.1x2.dist 28 -0.1 0.6
TH1F hdc2x1_ddist 'HMS 2U2 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.2x1.dist 28 -0.1 0.6
TH1F hdc2y1_ddist 'HMS 2U1 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.2y1.dist 28 -0.1 0.6
TH1F hdc2u1_ddist 'HMS 2X2 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.2u1.dist 28 -0.1 0.6
TH1F hdc2v1_ddist 'HMS 2X1 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.2v1.dist 28 -0.1 0.6
TH1F hdc2y2_ddist 'HMS 2V2 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.2y2.dist 28 -0.1 0.6
TH1F hdc2x2_ddist 'HMS 2V1 Drift Distance; Drift Distance (cm); Number of Entries' H.dc.2x2.dist 28 -0.1 0.6
#--------------------------------------
# HMS DC DRIFT DISTANCE VS. WIRENUMBER
#--------------------------------------
TH2F hdc1x1_wirenum_vs_ddist 'HMS DC 1X1 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.1x1.wirenum H.dc.1x1.dist 113 0.5 113.5 300 -0.1 0.6
TH2F hdc1y1_wirenum_vs_ddist 'HMS DC 1Y1 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.1y1.wirenum H.dc.1y1.dist 52 0.5 52.5 300 -0.1 0.6
TH2F hdc1u1_wirenum_vs_ddist 'HMS DC 1U1 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.1u1.wirenum H.dc.1u1.dist 107 0.5 107.5 300 -0.1 0.6
TH2F hdc1v1_wirenum_vs_ddist 'HMS DC 1V1 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.1v1.wirenum H.dc.1v1.dist 107 0.5 107.5 300 -0.1 0.6
TH2F hdc1y2_wirenum_vs_ddist 'HMS DC 1Y2 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.1y2.wirenum H.dc.1y2.dist 52 0.5 52.5 300 -0.1 0.6
TH2F hdc1x2_wirenum_vs_ddist 'HMS DC 1X2 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.1x2.wirenum H.dc.1x2.dist 113 0.5 113.5 300 -0.1 0.6
TH2F hdc2x1_wirenum_vs_ddist 'HMS DC 2X1 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.2x1.wirenum H.dc.2x1.dist 113 0.5 113.5 300 -0.1 0.6
TH2F hdc2y1_wirenum_vs_ddist 'HMS DC 2Y1 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.2y1.wirenum H.dc.2y1.dist 52 0.5 52.5 300 -0.1 0.6
TH2F hdc2u1_wirenum_vs_ddist 'HMS DC 2U1 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.2u1.wirenum H.dc.2u1.dist 107 0.5 107.5 300 -0.1 0.6
TH2F hdc2v1_wirenum_vs_ddist 'HMS DC 2V1 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.2v1.wirenum H.dc.2v1.dist 107 0.5 107.5 300 -0.1 0.6
TH2F hdc2y2_wirenum_vs_ddist 'HMS DC 2Y2 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.2y2.wirenum H.dc.2y2.dist 52 0.5 52.5 300 -0.1 0.6
TH2F hdc2x2_wirenum_vs_ddist 'HMS DC 2X2 Drift Distance vs. Wire Number; Wire Number; Drift Distance (cm)' H.dc.2x2.wirenum H.dc.2x2.dist 113 0.5 113.5 300 -0.1 0.6
#----------------------------
# HMS DC RESIDUALS PER PLANE
#----------------------------
TH1F hdc1x1_residuals 'HMS 1X1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[0] 200 -1.0 1.0
TH1F hdc1y1_residuals 'HMS 1Y1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[1] 200 -1.0 1.0
TH1F hdc1u1_residuals 'HMS 1U1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[2] 200 -1.0 1.0
TH1F hdc1v1_residuals 'HMS 1V1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[3] 200 -1.0 1.0
TH1F hdc1y2_residuals 'HMS 1Y2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[4] 200 -1.0 1.0
TH1F hdc1x2_residuals 'HMS 1X2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[5] 200 -1.0 1.0
TH1F hdc2x1_residuals 'HMS 2X1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[6] 200 -1.0 1.0
TH1F hdc2y1_residuals 'HMS 2Y1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[7] 200 -1.0 1.0
TH1F hdc2u1_residuals 'HMS 2U1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[8] 200 -1.0 1.0
TH1F hdc2v1_residuals 'HMS 2V1 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[9] 200 -1.0 1.0
TH1F hdc2y2_residuals 'HMS 2Y2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[10] 200 -1.0 1.0
TH1F hdc2x2_residuals 'HMS 2X2 DC Residuals; Residuals (cm); Number of Entries / 0.01 cm' H.dc.residual[11] 200 -1.0 1.0
#-------------------------------------------
# HMS DC TRACKING VARIABLES AT FOCAL PLANE
#-------------------------------------------
TH1F hdc_trk_mom 'HMS DC Track Momentum; P (GeV); Number of Entires / 10 MeV' H.tr.p 600 0 6
TH1F hdc_trk_beta 'HMS DC Track Beta; Beta (GeV); Number of Entires' H.tr.beta 300 -1.5 1.5
TH2F hdc_xfp_vs_yxp 'HMS DC X_{fp} vs Y_{fp}; Y_{fp} (cm) / 1 cm; X_{fp} (cm) / 1 cm' H.dc.y_fp H.dc.x_fp 100 -50 50 100 -50 50
TH2F hdc_xpfp_vs_ypfp 'HMS DC X'_{fp} vs Y'_{fp}; Y'_{fp} / 0.002 rad; X'_{fp} / 0.002 rad' H.dc.yp_fp H.dc.xp_fp 100 -.1 .1 100 -.1 .1
TH2F hdc_xfp_vs_ypfp 'HMS DC X_{fp} vs Y'_{fp}; Y'_{fp} / 0.002 rad; X_{fp} / 1 cm' H.dc.yp_fp H.dc.x_fp 100 -.1 .1 100 -50 50
TH2F hdc_xfp_vs_xpfp 'HMS DC X_{fp} vs X'_{fp}; X'_{fp} / 0.002 rad; X_{fp} / 1 cm' H.dc.xp_fp H.dc.x_fp 100 -.1 .1 100 -50 50
#*****************
# HMS HODOSCOPES *
#*****************
#-----------------------------------
# HMS HODO GOOD ADC Multiplicities
#-----------------------------------
TH1F hhodo_1x_good_adc_mult_pos 'HMS 1X+ Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' H.hod.1x.totNumGoodPosAdcHits 16 0.5 16.5
TH1F hhodo_1y_good_adc_mult_pos 'HMS 1Y+ Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' H.hod.1y.totNumGoodPosAdcHits 10 0.5 10.5
TH1F hhodo_2x_good_adc_mult_pos 'HMS 2X+ Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' H.hod.2x.totNumGoodPosAdcHits 16 0.5 16.5
TH1F hhodo_2y_good_adc_mult_pos 'HMS 2Y+ Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits' H.hod.2y.totNumGoodPosAdcHits 10 0.5 10.5
TH1F hhodo_1x_good_adc_mult_neg 'HMS 1X- Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' H.hod.1x.totNumGoodNegAdcHits 16 0.5 16.5
TH1F hhodo_1y_good_adc_mult_neg 'HMS 1Y- Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' H.hod.1y.totNumGoodNegAdcHits 10 0.5 10.5
TH1F hhodo_2x_good_adc_mult_neg 'HMS 2X- Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' H.hod.2x.totNumGoodNegAdcHits 16 0.5 16.5
TH1F hhodo_2y_good_adc_mult_neg 'HMS 2Y- Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits' H.hod.2y.totNumGoodNegAdcHits 10 0.5 10.5
TH1F hhodo_1x_good_adc_mult 'HMS 1X Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' H.hod.1x.totNumGoodAdcHits 16 0.5 16.5
TH1F hhodo_1y_good_adc_mult 'HMS 1Y Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' H.hod.1y.totNumGoodAdcHits 10 0.5 10.5
TH1F hhodo_2x_good_adc_mult 'HMS 2X Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' H.hod.2x.totNumGoodAdcHits 16 0.5 16.5
TH1F hhodo_2y_good_adc_mult 'HMS 2Y Good ADC Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits' H.hod.2y.totNumGoodAdcHits 10 0.5 10.5
#-----------------------------------
# HMS HODO Good TDC Multiplicities
#-----------------------------------
TH1F hhodo_1x_good_tdc_mult_pos 'HMS 1X+ Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good +TDC Hits' H.hod.1x.totNumGoodPosTdcHits 16 0.5 16.5
TH1F hhodo_1y_good_tdc_mult_pos 'HMS 1Y+ Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good +TDC Hits' H.hod.1y.totNumGoodPosTdcHits 10 0.5 10.5
TH1F hhodo_2x_good_tdc_mult_pos 'HMS 2X+ Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good +TDC Hits' H.hod.2x.totNumGoodPosTdcHits 16 0.5 16.5
TH1F hhodo_2y_good_tdc_mult_pos 'HMS 2Y+ Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good +TDC Hits' H.hod.2y.totNumGoodPosTdcHits 10 0.5 10.5
TH1F hhodo_1x_good_tdc_mult_neg 'HMS 1X- Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good -TDC Hits' H.hod.1x.totNumGoodNegTdcHits 16 0.5 16.5
TH1F hhodo_1y_good_tdc_mult_neg 'HMS 1Y- Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good -TDC Hits' H.hod.1y.totNumGoodNegTdcHits 10 0.5 10.5
TH1F hhodo_2x_good_tdc_mult_neg 'HMS 2X- Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good -TDC Hits' H.hod.2x.totNumGoodNegTdcHits 16 0.5 16.5
TH1F hhodo_2y_good_tdc_mult_neg 'HMS 2Y- Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good -TDC Hits' H.hod.2y.totNumGoodNegTdcHits 10 0.5 10.5
TH1F hhodo_1x_good_tdc_mult 'HMS 1X Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good TDC Hits' H.hod.1x.totNumGoodTdcHits 16 0.5 16.5
TH1F hhodo_1y_good_tdc_mult 'HMS 1Y Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good TDC Hits' H.hod.1y.totNumGoodTdcHits 10 0.5 10.5
TH1F hhodo_2x_good_tdc_mult 'HMS 2X Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good TDC Hits' H.hod.2x.totNumGoodTdcHits 16 0.5 16.5
TH1F hhodo_2y_good_tdc_mult 'HMS 2Y Good TDC Multiplicity; Number of PMTs Hit; Total Number of Good TDC Hits' H.hod.2y.totNumGoodTdcHits 10 0.5 10.5
#---------------------------------
# HMS HODO GOOD ADC OCCUPANCIES
#---------------------------------
TH1F hhodo_1x_good_adc_occ_pos 'HMS 1X+ Good ADC Occupancy; PMT Number; Number of Good +ADC Hits' H.hod.1x.numGoodPosAdcHits 16 0.5 16.5
TH1F hhodo_1y_good_adc_occ_pos 'HMS 1Y+ Good ADC Occupancy; PMT Number; Number of Good +ADC Hits' H.hod.1y.numGoodPosAdcHits 10 0.5 10.5
TH1F hhodo_2x_good_adc_occ_pos 'HMS 2X+ Good ADC Occupancy; PMT Number; Number of Good +ADC Hits' H.hod.2x.numGoodPosAdcHits 16 0.5 16.5
TH1F hhodo_2y_good_adc_occ_pos 'HMS 2Y+ Good ADC Occupancy; PMT Number; Number of Good +ADC Hits' H.hod.2y.numGoodPosAdcHits 10 0.5 10.5
TH1F hhodo_1x_good_adc_occ_neg 'HMS 1X- Good ADC Occupancy; PMT Number; Number of Good -ADC Hits' H.hod.1x.numGoodNegAdcHits 16 0.5 16.5
TH1F hhodo_1y_good_adc_occ_neg 'HMS 1Y- Good ADC Occupancy; PMT Number; Number of Good -ADC Hits' H.hod.1y.numGoodNegAdcHits 10 0.5 10.5
TH1F hhodo_2x_good_adc_occ_neg 'HMS 2X- Good ADC Occupancy; PMT Number; Number of Good -ADC Hits' H.hod.2x.numGoodNegAdcHits 16 0.5 16.5
TH1F hhodo_2y_good_adc_occ_neg 'HMS 2Y- Good ADC Occupancy; PMT Number; Number of Good -ADC Hits' H.hod.2y.numGoodNegAdcHits 10 0.5 10.5
#--------------------------------
# HMS HODO GOOD TDC OCCUPANCIES
#--------------------------------
TH1F hhodo_1x_good_tdc_occ_pos 'HMS 1X+ Good TDC Occupancy; PMT Number; Number of Good +TDC Hits' H.hod.1x.numGoodPosTdcHits 16 0.5 16.5
TH1F hhodo_1y_good_tdc_occ_pos 'HMS 1Y+ Good TDC Occupancy; PMT Number; Number of Good +TDC Hits' H.hod.1y.numGoodPosTdcHits 10 0.5 10.5
TH1F hhodo_2x_good_tdc_occ_pos 'HMS 2X+ Good TDC Occupancy; PMT Number; Number of Good +TDC Hits' H.hod.2x.numGoodPosTdcHits 16 0.5 16.5
TH1F hhodo_2y_good_tdc_occ_pos 'HMS 2Y+ Good TDC Occupancy; PMT Number; Number of Good +TDC Hits' H.hod.2y.numGoodPosTdcHits 10 0.5 10.5
TH1F hhodo_1x_good_tdc_occ_neg 'HMS 1X- Good TDC Occupancy; PMT Number; Number of Good -TDC Hits' H.hod.1x.numGoodNegTdcHits 16 0.5 16.5
TH1F hhodo_1y_good_tdc_occ_neg 'HMS 1Y- Good TDC Occupancy; PMT Number; Number of Good -TDC Hits' H.hod.1y.numGoodNegTdcHits 10 0.5 10.5
TH1F hhodo_2x_good_tdc_occ_neg 'HMS 2X- Good TDC Occupancy; PMT Number; Number of Good -TDC Hits' H.hod.2x.numGoodNegTdcHits 16 0.5 16.5
TH1F hhodo_2y_good_tdc_occ_neg 'HMS 2Y- Good TDC Occupancy; PMT Number; Number of Good -TDC Hits' H.hod.2y.numGoodNegTdcHits 10 0.5 10.5
#------------------------------
# HMS HODO Good PULSE PEDESTAL
#------------------------------
TH2F hhodo_1x_good_pped_vs_pmt_pos 'HMS 1X+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] H.hod.1x.GoodPosAdcPed 16 0.5 16.5 400 300 700 H.hod.1x.GoodPosAdcPed>0.0
TH2F hhodo_1y_good_pped_vs_pmt_pos 'HMS 1Y+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] H.hod.1y.GoodPosAdcPed 10 0.5 10.5 400 300 700 H.hod.1y.GoodPosAdcPed>0.0
TH2F hhodo_2x_good_pped_vs_pmt_pos 'HMS 2X+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] H.hod.2x.GoodPosAdcPed 16 0.5 16.5 400 300 700 H.hod.2x.GoodPosAdcPed>0.0
TH2F hhodo_2y_good_pped_vs_pmt_pos 'HMS 2Y+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] H.hod.2y.GoodPosAdcPed 10 0.5 10.5 400 300 700 H.hod.2y.GoodPosAdcPed>0.0
TH2F hhodo_1x_good_pped_vs_pmt_neg 'HMS 1X- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] H.hod.1x.GoodNegAdcPed 16 0.5 16.5 400 300 700 H.hod.1x.GoodNegAdcPed>0.0
TH2F hhodo_1y_good_pped_vs_pmt_neg 'HMS 1Y- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] H.hod.1y.GoodNegAdcPed 10 0.5 10.5 400 300 700 H.hod.1y.GoodNegAdcPed>0.0
TH2F hhodo_2x_good_pped_vs_pmt_neg 'HMS 2X- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] H.hod.2x.GoodNegAdcPed 16 0.5 16.5 400 300 700 H.hod.2x.GoodNegAdcPed>0.0
TH2F hhodo_2y_good_pped_vs_pmt_neg 'HMS 2Y- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Unit' [I+1] H.hod.2y.GoodNegAdcPed 10 0.5 10.5 400 300 700 H.hod.2y.GoodNegAdcPed>0.0
#------------------------------
# HMS HODO Good PULSE INTEGRAL
#------------------------------
TH2F hhodo_1x_good_pi_vs_pmt_pos 'HMS 1X+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.hod.1x.GoodPosAdcPulseInt 16 0.5 16.5 600 0 30000 H.hod.1x.GoodPosAdcPulseInt>0.0
TH2F hhodo_1y_good_pi_vs_pmt_pos 'HMS 1Y+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.hod.1y.GoodPosAdcPulseInt 10 0.5 10.5 600 0 30000 H.hod.1y.GoodPosAdcPulseInt>0.0
TH2F hhodo_2x_good_pi_vs_pmt_pos 'HMS 2X+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.hod.2x.GoodPosAdcPulseInt 16 0.5 16.5 600 0 30000 H.hod.2x.GoodPosAdcPulseInt>0.0
TH2F hhodo_2y_good_pi_vs_pmt_pos 'HMS 2Y+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.hod.2y.GoodPosAdcPulseInt 10 0.5 10.5 600 0 30000 H.hod.2y.GoodPosAdcPulseInt>0.0
TH2F hhodo_1x_good_pi_vs_pmt_neg 'HMS 1X- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.hod.1x.GoodNegAdcPulseInt 16 0.5 16.5 600 0 30000 H.hod.1x.GoodNegAdcPulseInt>0.0
TH2F hhodo_1y_good_pi_vs_pmt_neg 'HMS 1Y- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.hod.1y.GoodNegAdcPulseInt 10 0.5 10.5 600 0 30000 H.hod.1y.GoodNegAdcPulseInt>0.0
TH2F hhodo_2x_good_pi_vs_pmt_neg 'HMS 2X- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.hod.2x.GoodNegAdcPulseInt 16 0.5 16.5 600 0 30000 H.hod.2x.GoodNegAdcPulseInt>0.0
TH2F hhodo_2y_good_pi_vs_pmt_neg 'HMS 2Y- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.hod.2y.GoodNegAdcPulseInt 10 0.5 10.5 600 0 30000 H.hod.2y.GoodNegAdcPulseInt>0.0
#-------------------------------
# HMS HODO Good PULSE AMPLITUDE
#-------------------------------
TH2F hhodo_1x_good_pamp_vs_pmt_pos 'HMS 1X+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.hod.1x.GoodPosAdcPulseAmp 16 0.5 16.5 205 0 4100 H.hod.1x.GoodPosAdcPulseAmp>0.0
TH2F hhodo_1y_good_pamp_vs_pmt_pos 'HMS 1Y+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.hod.1y.GoodPosAdcPulseAmp 10 0.5 10.5 205 0 4100 H.hod.1y.GoodPosAdcPulseAmp>0.0
TH2F hhodo_2x_good_pamp_vs_pmt_pos 'HMS 2X+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.hod.2x.GoodPosAdcPulseAmp 16 0.5 16.5 205 0 4100 H.hod.2x.GoodPosAdcPulseAmp>0.0
TH2F hhodo_2y_good_pamp_vs_pmt_pos 'HMS 2Y+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.hod.2y.GoodPosAdcPulseAmp 10 0.5 10.5 205 0 4100 H.hod.2y.GoodPosAdcPulseAmp>0.0
TH2F hhodo_1x_good_pamp_vs_pmt_neg 'HMS 1X- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.hod.1x.GoodNegAdcPulseAmp 16 0.5 16.5 205 0 4100 H.hod.1x.GoodNegAdcPulseAmp>0.0
TH2F hhodo_1y_good_pamp_vs_pmt_neg 'HMS 1Y- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.hod.1y.GoodNegAdcPulseAmp 10 0.5 10.5 205 0 4100 H.hod.1y.GoodNegAdcPulseAmp>0.0
TH2F hhodo_2x_good_pamp_vs_pmt_neg 'HMS 2X- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.hod.2x.GoodNegAdcPulseAmp 16 0.5 16.5 205 0 4100 H.hod.2x.GoodNegAdcPulseAmp>0.0
TH2F hhodo_2y_good_pamp_vs_pmt_neg 'HMS 2Y- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.hod.2y.GoodNegAdcPulseAmp 10 0.5 10.5 205 0 4100 H.hod.2y.GoodNegAdcPulseAmp>0.0
#------------------------------
# HMS HODO Good ADC PULSE TIME
#------------------------------
TH2F hhodo_1x_good_ptime_vs_pmt_pos 'HMS 1X+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.hod.1x.GoodPosAdcPulseTime 16 0.5 16.5 410 0 4100 H.hod.1x.GoodPosAdcPulseTime>0.0
TH2F hhodo_1y_good_ptime_vs_pmt_pos 'HMS 1Y+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.hod.1y.GoodPosAdcPulseTime 10 0.5 10.5 410 0 4100 H.hod.1y.GoodPosAdcPulseTime>0.0
TH2F hhodo_2x_good_ptime_vs_pmt_pos 'HMS 2X+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.hod.2x.GoodPosAdcPulseTime 16 0.5 16.5 410 0 4100 H.hod.2x.GoodPosAdcPulseTime>0.0
TH2F hhodo_2y_good_ptime_vs_pmt_pos 'HMS 2Y+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.hod.2y.GoodPosAdcPulseTime 10 0.5 10.5 410 0 4100 H.hod.2y.GoodPosAdcPulseTime>0.0
TH2F hhodo_1x_good_ptime_vs_pmt_neg 'HMS 1X- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.hod.1x.GoodNegAdcPulseTime 16 0.5 16.5 410 0 4100 H.hod.1x.GoodNegAdcPulseTime>0.0
TH2F hhodo_1y_good_ptime_vs_pmt_neg 'HMS 1Y- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.hod.1y.GoodNegAdcPulseTime 10 0.5 10.5 410 0 4100 H.hod.1y.GoodNegAdcPulseTime>0.0
TH2F hhodo_2x_good_ptime_vs_pmt_neg 'HMS 2X- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.hod.2x.GoodNegAdcPulseTime 16 0.5 16.5 410 0 4100 H.hod.2x.GoodNegAdcPulseTime>0.0
TH2F hhodo_2y_good_ptime_vs_pmt_neg 'HMS 2Y- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.hod.2y.GoodNegAdcPulseTime 10 0.5 10.5 410 0 4100 H.hod.2y.GoodNegAdcPulseTime>0.0
#-------------------------------------------------------------------
# HMS HODO Good TDC TIME UNCORRECTED (uncorrected for time offsets)
#-------------------------------------------------------------------
TH2F hhodo_1x_good_tdctime_uncorr_vs_pmt_pos 'HMS 1X+ Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] H.hod.1x.GoodPosTdcTimeUnCorr 16 0.5 16.5 120 0 120 H.hod.1x.GoodPosTdcTimeUnCorr>0.0
TH2F hhodo_1y_good_tdctime_uncorr_vs_pmt_pos 'HMS 1Y+ Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] H.hod.1y.GoodPosTdcTimeUnCorr 10 0.5 10.5 120 0 120 H.hod.1y.GoodPosTdcTimeUnCorr>0.0
TH2F hhodo_2x_good_tdctime_uncorr_vs_pmt_pos 'HMS 2X+ Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] H.hod.2x.GoodPosTdcTimeUnCorr 16 0.5 16.5 120 0 120 H.hod.2x.GoodPosTdcTimeUnCorr>0.0
TH2F hhodo_2y_good_tdctime_uncorr_vs_pmt_pos 'HMS 2Y+ Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] H.hod.2y.GoodPosTdcTimeUnCorr 10 0.5 10.5 120 0 120 H.hod.2y.GoodPosTdcTimeUnCorr>0.0
TH2F hhodo_1x_good_tdctime_uncorr_vs_pmt_neg 'HMS 1X- Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] H.hod.1x.GoodNegTdcTimeUnCorr 16 0.5 16.5 120 0 120 H.hod.1x.GoodNegTdcTimeUnCorr>0.0
TH2F hhodo_1y_good_tdctime_uncorr_vs_pmt_neg 'HMS 1Y- Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] H.hod.1y.GoodNegTdcTimeUnCorr 10 0.5 10.5 120 0 120 H.hod.1y.GoodNegTdcTimeUnCorr>0.0
TH2F hhodo_2x_good_tdctime_uncorr_vs_pmt_neg 'HMS 2X- Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] H.hod.2x.GoodNegTdcTimeUnCorr 16 0.5 16.5 120 0 120 H.hod.2x.GoodNegTdcTimeUnCorr>0.0
TH2F hhodo_2y_good_tdctime_uncorr_vs_pmt_neg 'HMS 2Y- Good Uncorrected TDC Time vs. PMT Number; PMT Number; Good Uncorrected TDC Time / 1 TDC Unit' [I+1] H.hod.2y.GoodNegTdcTimeUnCorr 10 0.5 10.5 120 0 120 H.hod.2y.GoodNegTdcTimeUnCorr>0.0
#---------------------------------------------------------------
# HMS HODO Good TDC TIME CORRECTED (corrected for time offsets)
#---------------------------------------------------------------
TH2F hhodo_1x_good_tdctime_corr_vs_pmt_pos 'HMS 1X+ Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.1x.GoodPosTdcTimeCorr 16 0.5 16.5 120 0 120 H.hod.1x.GoodPosTdcTimeCorr>0.0
TH2F hhodo_1y_good_tdctime_corr_vs_pmt_pos 'HMS 1Y+ Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.1y.GoodPosTdcTimeCorr 10 0.5 10.5 120 0 120 H.hod.1y.GoodPosTdcTimeCorr>0.0
TH2F hhodo_2x_good_tdctime_corr_vs_pmt_pos 'HMS 2X+ Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.2x.GoodPosTdcTimeCorr 16 0.5 16.5 120 0 120 H.hod.2x.GoodPosTdcTimeCorr>0.0
TH2F hhodo_2y_good_tdctime_corr_vs_pmt_pos 'HMS 2Y+ Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.2y.GoodPosTdcTimeCorr 10 0.5 10.5 120 0 120 H.hod.2y.GoodPosTdcTimeCorr>0.0
TH2F hhodo_1x_good_tdctime_corr_vs_pmt_neg 'HMS 1X- Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.1x.GoodNegTdcTimeCorr 16 0.5 16.5 120 0 120 H.hod.1x.GoodNegTdcTimeCorr>0.0
TH2F hhodo_1y_good_tdctime_corr_vs_pmt_neg 'HMS 1Y- Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.1y.GoodNegTdcTimeCorr 10 0.5 10.5 120 0 120 H.hod.1y.GoodNegTdcTimeCorr>0.0
TH2F hhodo_2x_good_tdctime_corr_vs_pmt_neg 'HMS 2X- Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.2x.GoodNegTdcTimeCorr 16 0.5 16.5 120 0 120 H.hod.2x.GoodNegTdcTimeCorr>0.0
TH2F hhodo_2y_good_tdctime_corr_vs_pmt_neg 'HMS 2Y- Good Corrected TDC Time vs. PMT Number; PMT Number; Good Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.2y.GoodNegTdcTimeCorr 10 0.5 10.5 120 0 120 H.hod.2y.GoodNegTdcTimeCorr>0.0
#--------------------------------------------------------------------
# HMS HODO Good TDC TIME TOF CORRECTED (corrected for time of flight)
#--------------------------------------------------------------------
TH2F hhodo_1x_good_tdctime_tofcorr_vs_pmt_pos 'HMS 1X+ Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.1x.GoodPosTdcTimeTOFCorr 16 0.5 16.5 120 0 120 H.hod.1x.GoodPosTdcTimeTOFCorr>0.0
TH2F hhodo_1y_good_tdctime_tofcorr_vs_pmt_pos 'HMS 1Y+ Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.1y.GoodPosTdcTimeTOFCorr 10 0.5 10.5 120 0 120 H.hod.1y.GoodPosTdcTimeTOFCorr>0.0
TH2F hhodo_2x_good_tdctime_tofcorr_vs_pmt_pos 'HMS 2X+ Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.2x.GoodPosTdcTimeTOFCorr 16 0.5 16.5 120 0 120 H.hod.2x.GoodPosTdcTimeTOFCorr>0.0
TH2F hhodo_2y_good_tdctime_tofcorr_vs_pmt_pos 'HMS 2Y+ Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.2y.GoodPosTdcTimeTOFCorr 10 0.5 10.5 120 0 120 H.hod.2y.GoodPosTdcTimeTOFCorr>0.0
TH2F hhodo_1x_good_tdctime_tofcorr_vs_pmt_neg 'HMS 1X- Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.1x.GoodNegTdcTimeTOFCorr 16 0.5 16.5 120 0 120 H.hod.1x.GoodNegTdcTimeTOFCorr>0.0
TH2F hhodo_1y_good_tdctime_tofcorr_vs_pmt_neg 'HMS 1Y- Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.1y.GoodNegTdcTimeTOFCorr 10 0.5 10.5 120 0 120 H.hod.1y.GoodNegTdcTimeTOFCorr>0.0
TH2F hhodo_2x_good_tdctime_tofcorr_vs_pmt_neg 'HMS 2X- Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.2x.GoodNegTdcTimeTOFCorr 16 0.5 16.5 120 0 120 H.hod.2x.GoodNegTdcTimeTOFCorr>0.0
TH2F hhodo_2y_good_tdctime_tofcorr_vs_pmt_neg 'HMS 2Y- Good TOF Corrected TDC Time vs. PMT Number; PMT Number; Good TOF Corrected TDC Time / 1 TDC Unit' [I+1] H.hod.2y.GoodNegTdcTimeTOFCorr 10 0.5 10.5 120 0 120 H.hod.2y.GoodNegTdcTimeTOFCorr>0.0
#----------------------------------------------------------------
# HMS HODO TRACKING, TIMING AND Particle ID (PID) - BETA (v/c)
#----------------------------------------------------------------
TH1F hhodo_beta_notrack 'HMS Hodo Calculated Beta Without Track Info; Beta; Number of Entries / 0.02' H.hod.betanotrack 100 0 2.0 H.hod.betanotrack>0.0
TH1F hhodo_beta 'HMS Hodo Beta; Beta; Number of Entries / 0.02' H.hod.beta 100 0 2.0 H.hod.beta>0.0
TH1F hhodo_fpHitsTime 'HMS Hodo Focal Plane Time; Focal Plane Time (ns); Number of Entries / 1 ns' H.hod.fpHitsTime 90 0 90
TH1F hhodo_starttime 'HMS Hodo Start Time; Start Time (ns); Number of Entries / 1ns' H.hod.starttime 90 0 90
TH1F hhodo_good_startime 'HMS Hodo Good Start Time ; Good Start Time (flag=1 good, =0 did not determine start time); Number of Entries' H.hod.goodstarttime 5 0 5
TH1F hhodo_1x_diffdistrack 'HMS Hodo 1X Diff Distance track (cm); Diff distance (cm); Counts ' H.hod.1x.DiffDisTrack 100 -10. 10.
TH1F hhodo_1y_diffdistrack 'HMS Hodo 1Y Diff Distance track (cm); Diff distance (cm); Counts ' H.hod.1y.DiffDisTrack 100 -10. 10.
TH1F hhodo_2x_diffdistrack 'HMS Hodo 2X Diff Distance track (cm); Diff distance (cm); Counts ' H.hod.2x.DiffDisTrack 100 -10. 10.
TH1F hhodo_2y_diffdistrack 'HMS Hodo 2Y Diff Distance track (cm); Diff distance (cm); Counts ' H.hod.2y.DiffDisTrack 100 -10. 10.
TH2F hhodo_1x_diffdistrack_v_xtrack 'HMS Hodo 1X Diff Distance track (cm) versus Track X (cm); Diff distance (cm); X track (cm)' H.hod.1x.DiffDisTrack H.hod.1x.TrackXPos 100 -10. 10. 200 -100 100
TH2F hhodo_1y_diffdistrack_v_ytrack 'HMS Hodo 1Y Diff Distance track (cm) versus Track Y (cm); Diff distance (cm); Y track (cm)' H.hod.1y.DiffDisTrack H.hod.1y.TrackYPos 100 -10. 10. 240 -60 60
TH2F hhodo_2x_diffdistrack_v_xtrack 'HMS Hodo 2X Diff Distance track (cm) versus Track X (cm); Diff distance (cm); X track (cm)' H.hod.2x.DiffDisTrack H.hod.2x.TrackXPos 100 -10. 10. 200 -100 100
TH2F hhodo_2y_diffdistrack_v_ytrack 'HMS Hodo 2Y Diff Distance track (cm) versus Track Y (cm); Diff distance (cm); Y track (cm)' H.hod.2y.DiffDisTrack H.hod.2y.TrackYPos 100 -10. 10. 240 -60 60
#******************
# HMS CALORIMETER
#******************
#------------------------
# HMS CAL Good Occupancy
#------------------------
TH1F hcal_hA_good_occ_pos 'HMS hA+ Good Occupancy; PMT Number; Number of Entries' H.cal.1pr.numGoodPosAdcHits 13 0.5 13.5
TH1F hcal_hA_good_occ_neg 'HMS hA- Good Occupancy; PMT Number; Number of Entries' H.cal.1pr.numGoodNegAdcHits 13 0.5 13.5
TH1F hcal_hB_good_occ_pos 'HMS hB+ Good Occupancy; PMT Number; Number of Entries' H.cal.2ta.numGoodPosAdcHits 13 0.5 13.5
TH1F hcal_hB_good_occ_neg 'HMS hB- Good Occupancy; PMT Number; Number of Entries' H.cal.2ta.numGoodNegAdcHits 13 0.5 13.5
TH1F hcal_hC_good_occ_pos 'HMS hC+ Good Occupancy; PMT Number; Number of Entries' H.cal.3ta.numGoodPosAdcHits 13 0.5 13.5
TH1F hcal_hD_good_occ_pos 'HMS hD+ Good Occupancy; PMT Number; Number of Entries' H.cal.4ta.numGoodPosAdcHits 13 0.5 13.5
#---------------------------
# HMS CAL Good Multiplicity
#---------------------------
TH1F hcal_hA_good_mult_pos 'HMS hA+ Good Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits / PMT' H.cal.1pr.totNumGoodPosAdcHits 13 0.5 13.5
TH1F hcal_hA_good_mult_neg 'HMS hA- Good Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits / PMT' H.cal.1pr.totNumGoodNegAdcHits 13 0.5 13.5
TH1F hcal_hA_good_mult 'HMS hA Good Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits / PMT' H.cal.1pr.totnumGoodAdcHits 26 0.5 26.5
TH1F hcal_hB_good_mult_pos 'HMS hB+ Good Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits / PMT' H.cal.2ta.totNumGoodPosAdcHits 13 0.5 13.5
TH1F hcal_hB_good_mult_neg 'HMS hB- Good Multiplicity; Number of PMTs Hit; Total Number of Good -ADC Hits / PMT' H.cal.2ta.totNumGoodNegAdcHits 13 0.5 13.5
TH1F hcal_hB_good_mult 'HMS hB Good Multiplicity; Number of PMTs Hit; Total Number of Good ADC Hits / PMT' H.cal.2ta.totnumGoodAdcHits 26 0.5 26.5
TH1F hcal_hC_good_mult_pos 'HMS hC+ Good Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits / PMT' H.cal.3ta.totNumGoodPosAdcHits 13 0.5 13.5
TH1F hcal_hD_good_mult_pos 'HMS hD+ Good Multiplicity; Number of PMTs Hit; Total Number of Good +ADC Hits / PMT' H.cal.4ta.totNumGoodPosAdcHits 13 0.5 13.5
#-------------------------------
# HMS CAL Good Pulse Pedestals
#-------------------------------
TH2F hcal_hA_good_pped_vs_pmt_pos 'HMS hA+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Units' [I+1] H.cal.1pr.goodPosAdcPed 13 0.5 13.5 400 300 700 H.cal.1pr.goodPosAdcPed>0.0
TH2F hcal_hA_good_pped_vs_pmt_neg 'HMS hA- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Units' [I+1] H.cal.1pr.goodNegAdcPed 13 0.5 13.5 400 300 700 H.cal.1pr.goodNegAdcPed>0.0
TH2F hcal_hB_good_pped_vs_pmt_pos 'HMS hB+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Units' [I+1] H.cal.2ta.goodPosAdcPed 13 0.5 13.5 400 300 700 H.cal.2ta.goodPosAdcPed>0.0
TH2F hcal_hB_good_pped_vs_pmt_neg 'HMS hB- Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Units' [I+1] H.cal.2ta.goodNegAdcPed 13 0.5 13.5 400 300 700 H.cal.2ta.goodNegAdcPed>0.0
TH2F hcal_hC_good_pped_vs_pmt_pos 'HMS hC+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Units' [I+1] H.cal.3ta.goodPosAdcPed 13 0.5 13.5 400 300 700 H.cal.3ta.goodPosAdcPed>0.0
TH2F hcal_hD_good_pped_vs_pmt_pos 'HMS hD+ Good Pulse Pedestal vs. PMT Number; PMT Number; Good Pulse Pedestal / 1 ADC Units' [I+1] H.cal.4ta.goodPosAdcPed 13 0.5 13.5 400 300 700 H.cal.4ta.goodPosAdcPed>0.0
#-------------------------------
# HMS CAL Good Pulse Integrals
#-------------------------------
TH2F hcal_hA_good_pi_vs_pmt_pos 'HMS hA+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.cal.1pr.goodPosAdcPulseInt 13 0.5 13.5 600 0 30000 H.cal.1pr.goodPosAdcPulseInt>0.0
TH2F hcal_hA_good_pi_vs_pmt_neg 'HMS hA- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.cal.1pr.goodNegAdcPulseInt 13 0.5 13.5 600 0 30000 H.cal.1pr.goodNegAdcPulseInt>0.0
TH2F hcal_hB_good_pi_vs_pmt_pos 'HMS hB+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.cal.2ta.goodPosAdcPulseInt 13 0.5 13.5 600 0 30000 H.cal.2ta.goodPosAdcPulseInt>0.0
TH2F hcal_hB_good_pi_vs_pmt_neg 'HMS hB- Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.cal.2ta.goodNegAdcPulseInt 13 0.5 13.5 600 0 30000 H.cal.2ta.goodNegAdcPulseInt>0.0
TH2F hcal_hC_good_pi_vs_pmt_pos 'HMS hC+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.cal.3ta.goodPosAdcPulseInt 13 0.5 13.5 600 0 30000 H.cal.3ta.goodPosAdcPulseInt>0.0
TH2F hcal_hD_good_pi_vs_pmt_pos 'HMS hD+ Good Pulse Integral vs. PMT Number; PMT Number; Good Pulse Integral / 50 ADC Units' [I+1] H.cal.4ta.goodPosAdcPulseInt 13 0.5 13.5 600 0 30000 H.cal.4ta.goodPosAdcPulseInt>0.0
#-------------------------------
# HMS CAL Good Pulse Amplitudes
#-------------------------------
TH2F hcal_hA_good_pamp_vs_pmt_pos 'HMS hA+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.cal.1pr.goodPosAdcPulseAmp 13 0.5 13.5 200 0 4000 H.cal.1pr.goodPosAdcPulseAmp>0.0
TH2F hcal_hA_good_pamp_vs_pmt_neg 'HMS hA- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.cal.1pr.goodNegAdcPulseAmp 13 0.5 13.5 200 0 4000 H.cal.1pr.goodNegAdcPulseAmp>0.0
TH2F hcal_hB_good_pamp_vs_pmt_pos 'HMS hB+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.cal.2ta.goodPosAdcPulseAmp 13 0.5 13.5 200 0 4000 H.cal.2ta.goodPosAdcPulseAmp>0.0
TH2F hcal_hB_good_pamp_vs_pmt_neg 'HMS hB- Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.cal.2ta.goodNegAdcPulseAmp 13 0.5 13.5 200 0 4000 H.cal.2ta.goodNegAdcPulseAmp>0.0
TH2F hcal_hC_good_pamp_vs_pmt_pos 'HMS hC+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.cal.3ta.goodPosAdcPulseAmp 13 0.5 13.5 200 0 4000 H.cal.3ta.goodPosAdcPulseAmp>0.0
TH2F hcal_hD_good_pamp_vs_pmt_pos 'HMS hD+ Good Pulse Amplitude vs. PMT Number; PMT Number; Good Pulse Amplitude / 20 ADC Units' [I+1] H.cal.4ta.goodPosAdcPulseAmp 13 0.5 13.5 200 0 4000 H.cal.4ta.goodPosAdcPulseAmp>0.0
#---------------------------
# HMS CAL Good Pulse Times
#---------------------------
TH2F hcal_hA_good_ptime_vs_pmt_pos 'HMS hA+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.cal.1pr.goodPosAdcPulseTime 13 0.5 13.5 350 0 3500 H.cal.1pr.goodPosAdcPulseTime>0.0
TH2F hcal_hA_good_ptime_vs_pmt_neg 'HMS hA- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.cal.1pr.goodNegAdcPulseTime 13 0.5 13.5 350 0 3500 H.cal.1pr.goodNegAdcPulseTime>0.0
TH2F hcal_hB_good_ptime_vs_pmt_pos 'HMS hB+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.cal.2ta.goodPosAdcPulseTime 13 0.5 13.5 350 0 3500 H.cal.2ta.goodPosAdcPulseTime>0.0
TH2F hcal_hB_good_ptime_vs_pmt_neg 'HMS hB- Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.cal.2ta.goodNegAdcPulseTime 13 0.5 13.5 350 0 3500 H.cal.2ta.goodNegAdcPulseTime>0.0
TH2F hcal_hC_good_ptime_vs_pmt_pos 'HMS hC+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.cal.3ta.goodPosAdcPulseTime 13 0.5 13.5 350 0 3500 H.cal.3ta.goodPosAdcPulseTime>0.0
TH2F hcal_hD_good_ptime_vs_pmt_pos 'HMS hD+ Good Pulse Time vs. PMT Number; PMT Number; Good Pulse Time / 10 ADC Units' [I+1] H.cal.4ta.goodPosAdcPulseTime 13 0.5 13.5 350 0 3500 H.cal.4ta.goodPosAdcPulseTime>0.0
#-----------------------------------------------
# HMS CAL ENERGY DEPOSITION vs. PMT HISTOGRAMS
# (calib consts (GAIN) are in GeV/ADC units )
#-----------------------------------------------
TH2F hA_Epos_vs_pmt 'HMS hA+ Energy Deposition vs. PMT Number; PMT Number; Energy Deposition (0.01 GeV / ADC Units)' [I+1] H.cal.1pr.epos 13 0.5 13.5 200 0 2 H.cal.1pr.epos>0.0
TH2F hA_Eneg_vs_pmt 'HMS hA- Energy Deposition vs. PMT Number; PMT Number; Energy Deposition (0.01 GeV / ADC Units)' [I+1] H.cal.1pr.eneg 13 0.5 13.5 200 0 2 H.cal.1pr.eneg>0.0
TH2F hA_Emean_vs_pmt 'HMS hA Mean Energy Deposition vs. PMT Number; PMT Number; Mean Energy Deposition (0.01 GeV / ADC Units)' [I+1] H.cal.1pr.emean 13 0.5 13.5 300 0 3 H.cal.1pr.emean>0.0
TH2F hB_Epos_vs_pmt 'HMS hB+ Energy Deposition vs. PMT Number; PMT Number; Energy Deposition (0.01 GeV / ADC Units)' [I+1] H.cal.2ta.epos 13 0.5 13.5 200 0 2 H.cal.2ta.epos>0.0
TH2F hB_Eneg_vs_pmt 'HMS hB- Energy Deposition vs. PMT Number; PMT Number; Energy Deposition (0.01 GeV / ADC Units)' [I+1] H.cal.2ta.eneg 13 0.5 13.5 200 0 2 H.cal.2ta.eneg>0.0
TH2F hB_Emean_vs_pmt 'HMS hB Mean Energy Deposition vs. PMT Number; PMT Number; Mean Energy Deposition (0.01 GeV / ADC Units)' [I+1] H.cal.2ta.emean 13 0.5 13.5 300 0 3 H.cal.2ta.emean>0.0
TH2F hC_Epos_vs_pmt 'HMS hC+ Energy Deposition vs. PMT Number; PMT Number; Energy Deposition (0.01 GeV / ADC Units)' [I+1] H.cal.3ta.epos 13 0.5 13.5 200 0 2 H.cal.3ta.epos>0.0
TH2F hD_Epos_vs_pmt 'HMS hD+ Energy Deposition vs. PMT Number; PMT Number; Energy Deposition (0.01 GeV / ADC Units)' [I+1] H.cal.4ta.epos 13 0.5 13.5 200 0 2 H.cal.4ta.epos>0.0
#------------------------------------
# HMS CAL ENERGY DEPOSITION / Plane
#------------------------------------
TH1F hcal_hA_Eplane_pos 'HMS hA+ Energy Deposition; Energy Deposition (GeV); Number of Entries / 0.01 GeV' H.cal.1pr.eplane_pos 200 0 2 H.cal.1pr.eplane_pos>0.0
TH1F hcal_hA_Eplane_neg 'HMS hA- Energy Deposition; Energy Deposition (GeV); Number of Entries / 0.01 GeV' H.cal.1pr.eplane_neg 200 0 2 H.cal.1pr.eplane_neg>0.0
TH1F hcal_hA_Eplane 'HMS hA Total Energy Deposition; Total Energy Deposition (GeV); Number of Entries / 0.01 GeV' H.cal.1pr.eplane 300 0 3 H.cal.1pr.eplane>0.0
TH1F hcal_hB_Eplane_pos 'HMS hB+ Energy Deposition; Energy Deposition (GeV); Number of Entries / 0.01 GeV' H.cal.2ta.eplane_pos 200 0 2 H.cal.2ta.eplane_pos>0.0
TH1F hcal_hB_Eplane_neg 'HMS hB- Energy Deposition; Energy Deposition (GeV); Number of Entries / 0.01 GeV' H.cal.2ta.eplane_neg 200 0 2 H.cal.2ta.eplane_neg>0.0
TH1F hcal_hB_Eplane 'HMS hB Total Energy Deposition; Total Energy Deposition (GeV); Number of Entries / 0.01 GeV' H.cal.2ta.eplane 300 0 3 H.cal.2ta.eplane>0.0
TH1F hcal_hC_Eplane_pos 'HMS hC+ Energy Deposition; Energy Deposition (GeV); Number of Entries / 0.01 GeV' H.cal.3ta.eplane_pos 200 0 2 H.cal.3ta.eplane_pos>0.0
TH1F hcal_hD_Eplane_pos 'HMS hD+ Energy Deposition; Energy Deposition (GeV); Number of Entries / 0.01 GeV' H.cal.4ta.eplane_pos 200 0 2 H.cal.4ta.eplane_pos>0.0
#********************
# Trigger Apparatus *
#********************
#---------------------------
# HMS Raw Hodo TRIG TDC Time
#---------------------------
TH1F htrig_h1x_tdc 'HMS h1X TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.h1X_tdcTimeRaw 1500 0 1500
TH1F htrig_h1y_tdc 'HMS h1Y TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.h1Y_tdcTimeRaw 1500 0 1500
TH1F htrig_h2x_tdc 'HMS h2X TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.h2X_tdcTimeRaw 1500 0 1500
TH1F htrig_h2y_tdc 'HMS h2Y TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.h2Y_tdcTimeRaw 1500 0 1500
TH1F htrig_h1T_tdc 'HMS h1X/h1Y Coincidence TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.h1T_tdcTimeRaw 1500 0 1500
TH1F htrig_h2T_tdc 'HMS h2X/h2Y Coincidence TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.h2T_tdcTimeRaw 1500 0 1500
TH1F htrig_hT1_tdc 'HMS h1X/h1Y/h2X/h2Y Coincidence TDC Time (Slot 2); Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hT1_tdcTimeRaw 1500 0 1500
TH1F htrig_hT2_tdc 'HMS h1X/h1Y/h2X/h2Y Coincidence TDC Time (Slot 20); Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hT2_tdcTimeRaw 1500 0 1500
#----------------------------
# HMS Raw DC Reference Time
#----------------------------
TH1F htrig_hdc_ref1 'HMS DC Reference Time 1; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hDCREF1_tdcTimeRaw 15000 0 15000
TH1F htrig_hdc_ref2 'HMS DC Reference Time 2; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hDCREF2_tdcTimeRaw 15000 0 15000
TH1F htrig_hdc_ref3 'HMS DC Reference Time 3; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hDCREF3_tdcTimeRaw 15000 0 15000
TH1F htrig_hdc_ref4 'HMS DC Reference Time 4; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hDCREF4_tdcTimeRaw 15000 0 15000
TH1F hdc_refdiff_1m2 'HDC Reference time 1 minus 2; TDC Time (Clicks); Number of Entries / 1 click' T.hms.hDCREF1_tdcTime-T.hms.hDCREF2_tdcTime 2000 -1000 1000
TH1F hdc_refdiff_1m3 'HDC Reference time 1 minus 3; TDC Time (Clicks); Number of Entries / 1 click' T.hms.hDCREF1_tdcTime-T.hms.hDCREF3_tdcTime 2000 -1000 1000
TH1F hdc_refdiff_1m4 'HDC Reference time 1 minus 4; TDC Time (Clicks); Number of Entries / 1 click' T.hms.hDCREF1_tdcTime-T.hms.hDCREF4_tdcTime 2000 -1000 1000
TH1F hdc_refdiff_2m3 'HDC Reference time 2 minus 3; TDC Time (Clicks); Number of Entries / 1 click' T.hms.hDCREF2_tdcTime-T.hms.hDCREF3_tdcTime 2000 -1000 1000
TH1F hdc_refdiff_2m4 'HDC Reference time 2 minus 4; TDC Time (Clicks); Number of Entries / 1 click' T.hms.hDCREF2_tdcTime-T.hms.hDCREF4_tdcTime 2000 -1000 1000
TH1F hdc_refdiff_3m4 'HDC Reference time 3 minus 4; TDC Time (Clicks); Number of Entries / 1 click' T.hms.hDCREF3_tdcTime-T.hms.hDCREF4_tdcTime 2000 -1000 1000
#--------------------------------------------
# HMS Calo Layers TRIG Pulse Profile
#--------------------------------------------
TH1F htrig_hasum_adc_pped 'HMS hAsum Pulse Pedestal; Pulse Pedestal (ADC Units); Counts / 1 ADC Units;' T.hms.hASUM_adcPed 5000 0 5000
TH1F htrig_hasum_adc_pi 'HMS hAsum Pulse Integral; Pulse Integral (ADC Units); Counts / 50 ADC Units;' T.hms.hASUM_adcPulseInt 800 0 40000
TH1F htrig_hasum_adc_pamp 'HMS hAsum Pulse Amplitude; Pulse Amplitude (ADC Units); Counts / 20 ADC Units;' T.hms.hASUM_adcPulseAmp 205 0 4100
TH1F htrig_hasum_tdc 'HMS hAsum TDC Time; TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hASUM_tdcTime 4000 0 40000
TH1F htrig_hbsum_adc_pped 'HMS hBsum Pulse Pedestal; Pulse Pedestal (ADC Units); Counts / 1 ADC Units;' T.hms.hBSUM_adcPed 5000 0 5000
TH1F htrig_hbsum_adc_pi 'HMS hBsum Pulse Integral; Pulse Integral (ADC Units); Counts / 50 ADC Units;' T.hms.hBSUM_adcPulseInt 800 0 40000
TH1F htrig_hbsum_adc_pamp 'HMS hBsum Pulse Amplitude; Pulse Amplitude (ADC Units); Counts / 20 ADC Units;' T.hms.hBSUM_adcPulseAmp 205 0 4100
TH1F htrig_hbsum_tdc 'HMS hBsum TDC Time; TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hBSUM_tdcTime 4000 0 40000
TH1F htrig_hcsum_adc_pped 'HMS hCsum Pulse Pedestal; Pulse Pedestal (ADC Units); Counts / 1 ADC Units;' T.hms.hCSUM_adcPed 5000 0 5000
TH1F htrig_hcsum_adc_pi 'HMS hCsum Pulse Integral; Pulse Integral (ADC Units); Counts / 50 ADC Units;' T.hms.hCSUM_adcPulseInt 800 0 40000
TH1F htrig_hcsum_adc_pamp 'HMS hCsum Pulse Amplitude; Pulse Amplitude (ADC Units); Counts / 20 ADC Units;' T.hms.hCSUM_adcPulseAmp 205 0 4100
TH1F htrig_hcsum_tdc 'HMS hCsum TDC Time; TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hCSUM_tdcTime 4000 0 40000
TH1F htrig_hdsum_adc_pped 'HMS hDsum Pulse Pedestal; Pulse Pedestal (ADC Units); Counts / 1 ADC Units;' T.hms.hDSUM_adcPed 5000 0 5000
TH1F htrig_hdsum_adc_pi 'HMS hDsum Pulse Integral; Pulse Integral (ADC Units); Counts / 50 ADC Units;' T.hms.hDSUM_adcPulseInt 800 0 40000
TH1F htrig_hdsum_adc_pamp 'HMS hDsum Pulse Amplitude; Pulse Amplitude (ADC Units); Counts / 20 ADC Units;' T.hms.hDSUM_adcPulseAmp 205 0 4100
TH1F htrig_hdsum_tdc 'HMS hDsum TDC Time; TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hDSUM_tdcTime 4000 0 40000
#----------------------------------
# HMS PreShower TRIG Pulse Profile
#----------------------------------
TH1F htrig_hpreShwr_adc_pped 'HMS Pre-Shower Pulse Pedestal; Pulse Pedestal (ADC Units); Counts / 1 ADC Units;' T.hms.hPSHWR_adcPed 5000 0 5000
TH1F htrig_hpreShwr_adc_pi 'HMS Pre-Shower Pulse Integral; Pulse Integral (ADC Units); Counts / 50 ADC Units;' T.hms.hPSHWR_adcPulseInt 800 0 40000
TH1F htrig_hpreShwr_adc_pamp 'HMS Pre-Shower Pulse Amplitude; Pulse Amplitude (ADC Units); Counts / 20 ADC Units;' T.hms.hPSHWR_adcPulseAmp 205 0 4100
#-----------------------------
# HMS PreShower TRIG LOW/HIGH
#-----------------------------
TH1F htrig_hpreShwrLow_tdc 'HMS hpreShwrLow TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hPSHWRLO_tdcTimeRaw 4000 0 40000
TH1F htrig_hpreShwrHigh_tdc 'HMS hpreShwrHigh TDC Time; Raw TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hPSHWRHI_tdcTimeRaw 4000 0 40000
#----------------------------------
# HMS Shower TRIG Pulse Profile
#----------------------------------
TH1F htrig_hshwr_adc_pped 'HMS Shower Pulse Pedestal; Pulse Pedestal (ADC Units); Counts / 1 ADC Units;' T.hms.hSHWR_adcPed 5000 0 5000
TH1F htrig_hshwr_adc_pi 'HMS Shower Pulse Integral; Pulse Integral (ADC Units); Counts / 50 ADC Units;' T.hms.hSHWR_adcPulseInt 800 0 40000
TH1F htrig_hshwr_adc_pamp 'HMS Shower Pulse Amplitude; Pulse Amplitude (ADC Units); Counts / 20 ADC Units;' T.hms.hSHWR_adcPulseAmp 205 0 4100
TH1F htrig_hshwr_tdc 'HMS Shower TDC Time; TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hSHWR_tdcTime 4000 0 40000
#---------------------------------------
# HMS Gas Cherenkov TRIG Pulse Profile
#---------------------------------------
TH1F htrig_hcersum_adc_pped 'HMS Cherenkov Sum Pulse Pedestal; Pulse Pedestal (ADC Units); Counts / 1 ADC Units;' T.hms.hCERSUM_adcPed 5000 0 5000
TH1F htrig_hcersum_adc_pi 'HMS Cherenkov Sum Pulse Integral; Pulse Integral (ADC Units); Counts / 50 ADC Units;' T.hms.hCERSUM_adcPulseInt 800 0 40000
TH1F htrig_hcersum_adc_pamp 'HMS Cherenkov Sum Pulse Amplitude; Pulse Amplitude (ADC Units); Counts / 20 ADC Units;' T.hms.hCERSUM_adcPulseAmp 205 0 4100
TH1F htrig_hcersum_tdc 'HMS Cherenkov Sum TDC Time; TDC Time (TDC Units); Counts / 10 TDC Units;' T.hms.hCERSUM_tdcTime 4000 0 40000
#*****************************************
# HMS Single Arm Primary (Scattered Beam)
# Kinematic Quantities
#*****************************************
TH1F hkin_q2 'HMS Q^{2}; Q^{2} (GeV^{2}); Number of Entries / 0.050 GeV^{2}' H.kin.Q2 100 0 5
TH1F hkin_omega 'HMS Omega; E_{beam} - E_{scat} (GeV); Number of Entries / 0.050 GeV' H.kin.omega 100 0 5
TH1F hkin_w2 'HMS W^{2}; W^{2} (GeV^{2}); Number of Entries / 0.100 GeV^{2}' H.kin.W2 100 0 10
TH1F hkin_w 'HMS W; W (GeV); Number of Entries / 0.050 GeV' H.kin.W 100 0 5
TH1F hkin_theta 'HMS Scattering Angle Theta; HMS Scattering Angle (deg); Number of Entries / 0.06 deg' H.kin.scat_ang_deg 100 12 18
#******************
# EPICS VARIABLES *
#******************
begin epics
IBC3H00CRCUR4
hac_bcm_average
ibcm1
ibcm2
iunser
itov3out
itov4out
end epics
\ No newline at end of file
PARAM/HMS/HODO/CALIB/KPP_Spring_2017/hhodo_calib_303.param
+ 28
28
View file @ 92329aa7
......@@ -70,37 +70,37 @@ hhodo_neg_invadc_linear = 15.00, 15.00, 15.00, 15.00
15.00, 15.00, 15.00, 15.00
15.00, 15.00, 15.00, 15.00
hhodo_pos_invadc_adc= -0.00, -0.00, 106.88, -0.00
-0.00, -0.00, 109.67, 122.91
-0.00, 102.28, 127.88, 117.82
100.32, 76.55, 109.30, 139.97
72.45, 90.73, 111.62, 121.49
59.46, 83.45, 116.54, 123.92
95.04, 91.79, 125.49, 127.74
62.95, 53.50, 113.46, 106.91
78.26, 49.84, 100.37, 141.06
73.52, -0.00, 101.78, -0.00
94.23, -0.00, 129.39, -0.00
75.59, -0.00, 94.17, -0.00
79.87, -0.00, -0.00, -0.00
63.90, -0.00, -0.00, -0.00
hhodo_pos_invadc_adc= -0.00, -0.00, 106.88*0.20, -0.00
-0.00, -0.00, 109.67*0.20, 122.91*0.20
-0.00, 102.28*0.20, 127.88*0.20, 117.82*0.20
100.32*0.20, 76.55, 109.30, 139.97
72.45*0.20, 90.73, 111.62, 121.49
59.46*0.20, 83.45, 116.54, 123.92
95.04*0.20, 91.79, 125.49, 127.74
62.95*0.20, 53.50, 113.46, 106.91
78.26*0.20, 49.84, 100.37, 141.06
73.52*0.20, -0.00, 101.78, -0.00
94.23*0.20, -0.00, 129.39, -0.00
75.59*0.20, -0.00, 94.17, -0.00
79.87*0.20, -0.00, -0.00, -0.00
63.90*0.20, -0.00, -0.00, -0.00
-0.00, -0.00, -0.00, -0.00
-0.00, -0.00, -0.00, -0.00
hhodo_neg_invadc_adc= -0.00, -0.00, 128.32, -0.00
-0.00, -0.00, 113.16, 159.99
-0.00, 68.41, 116.51, 119.18
73.18, 65.95, 112.50, 122.16
96.71, 91.23, 96.00, 103.37
52.93, 87.48, 103.59, 122.65
72.72, 82.28, 118.40, 140.72
76.58, 68.02, 104.25, 120.16
73.69, 98.85, 91.95, 119.78
72.26, -0.00, 89.16, -0.00
70.89, -0.00, 113.44, -0.00
72.26, -0.00, 101.96, -0.00
76.14, -0.00, -0.00, -0.00
36.51, -0.00, -0.00, -0.00
hhodo_neg_invadc_adc= -0.00, -0.00, 128.32*0.20, -0.00
-0.00, -0.00, 113.16*0.20, 159.99*0.20
-0.00, 68.41*0.20, 116.51*0.20, 119.18*0.20
73.18*0.20, 65.95*0.20, 112.50*0.20, 122.16*0.20
96.71*0.20, 91.23*0.20, 96.00*0.20, 103.37*0.20
52.93*0.20, 87.48*0.20, 103.59*0.20, 122.65*0.20
72.72*0.20, 82.28*0.20, 118.40*0.20, 140.72*0.20
76.58*0.20, 68.02*0.20, 104.25*0.20, 120.16*0.20
73.69*0.20, 98.85*0.20, 91.95*0.20, 119.78*0.20
72.26*0.20, -0.00, 89.16*0.20, -0.00
70.89*0.20, -0.00, 113.44*0.20, -0.00
72.26*0.20, -0.00, 101.96*0.20, -0.00
76.14*0.20, -0.00, -0.00, -0.00
36.51*0.20, -0.00, -0.00, -0.00
-0.00, -0.00, -0.00, -0.00
-0.00, -0.00, -0.00, -0.00
......
SCRIPTS/HMS/PRODUCTION/replay_production_hms_kpp.C 0 → 100644
+ 144
0
View file @ 92329aa7
void replay_production_hms_kpp(Int_t RunNumber=0, Int_t MaxEvent=0) {
// Get RunNumber and MaxEvent if not provided.
if(RunNumber == 0) {
cout << "Enter a Run Number (-1 to exit): ";
cin >> RunNumber;
if( RunNumber<=0 ) return;
}
if(MaxEvent == 0) {
cout << "\nNumber of Events to analyze: ";
cin >> MaxEvent;
if(MaxEvent == 0) {
cerr << "...Invalid entry\n";
exit;
}
}
// Create file name patterns.
const char* RunFileNamePattern = "hms_all_%05d.dat";
vector<TString> pathList;
pathList.push_back(".");
pathList.push_back("./raw");
pathList.push_back("./cache");
const char* ROOTFileNamePattern = "ROOTfiles/hms_replay_production_%d_%d.root";
//Load Global parameters
// Add variables to global list.
gHcParms->Define("gen_run_number", "Run Number", RunNumber);
gHcParms->AddString("g_ctp_database_filename", "DBASE/HMS/STD/standard.database");
// Load varibles from files to global list.
gHcParms->Load(gHcParms->GetString("g_ctp_database_filename"), RunNumber);
// g_ctp_parm_filename and g_decode_map_filename should now be defined.
gHcParms->Load(gHcParms->GetString("g_ctp_kinematics_filename"), RunNumber);
gHcParms->Load(gHcParms->GetString("g_ctp_parm_filename"));
gHcParms->Load(gHcParms->GetString("g_ctp_calib_filename"));
// Load params for HMS trigger configuration
gHcParms->Load("PARAM/TRIG/thms.param");
// Load the Hall C detector map
gHcDetectorMap = new THcDetectorMap();
gHcDetectorMap->Load("MAPS/HMS/DETEC/STACK/hms_stack_6gev.map");
// Add trigger apparatus
THaApparatus* TRG = new THcTrigApp("T", "TRG");
gHaApps->Add(TRG);
// Add trigger detector to trigger apparatus
THcTrigDet* hms = new THcTrigDet("hms", "HMS Trigger Information");
TRG->AddDetector(hms);
// Set up the equipment to be analyzed.
THaApparatus* HMS = new THcHallCSpectrometer("H", "HMS");
gHaApps->Add(HMS);
// Add drift chambers to HMS apparatus
THcDC* dc = new THcDC("dc", "Drift Chambers");
HMS->AddDetector(dc);
// Add hodoscope to HMS apparatus
THcHodoscope* hod = new THcHodoscope("hod", "Hodoscope");
HMS->AddDetector(hod);
// Add Cherenkov to HMS apparatus
THcCherenkov* cer = new THcCherenkov("cer", "Heavy Gas Cherenkov");
HMS->AddDetector(cer);
// Add Aerogel Cherenkov to HMS apparatus
//THcAerogel* aero = new THcAerogel("aero", "Aerogel");
//HMS->AddDetector(aero);
// Add calorimeter to HMS apparatus
THcShower* cal = new THcShower("cal", "Calorimeter");
HMS->AddDetector(cal);
// Include golden track information
THaGoldenTrack* gtr = new THaGoldenTrack("H.gtr", "HMS Golden Track", "H");
gHaPhysics->Add(gtr);
// Add Ideal Beam Apparatus
THaApparatus* beam = new THaIdealBeam("IB", "Ideal Beamline");
gHaApps->Add(beam);
// Add Physics Module to calculate primary (scattered) beam kinematics
THcPrimaryKine* hkin = new THcPrimaryKine("H.kin", "HMS Single Arm Kinematics", "H", "IB");
gHaPhysics->Add(hkin);
THcHodoEff* heff = new THcHodoEff("hodeff"," HMS hodo efficiency","H.hod");
gHaPhysics->Add(heff);
// Add handler for prestart event 125.
THcConfigEvtHandler* ev125 = new THcConfigEvtHandler("HC", "Config Event type 125");
gHaEvtHandlers->Add(ev125);
// Add handler for EPICS events
THaEpicsEvtHandler *hcepics = new THaEpicsEvtHandler("epics", "HC EPICS event type 180");
gHaEvtHandlers->Add(hcepics);
// Add handler for scaler events
THcScalerEvtHandler *hscaler = new THcScalerEvtHandler("H", "Hall C scaler event type 1");
hscaler->AddEvtType(1);
hscaler->SetUseFirstEvent(kTRUE);
gHaEvtHandlers->Add(hscaler);
// Set up the analyzer - we use the standard one,
// but this could be an experiment-specific one as well.
// The Analyzer controls the reading of the data, executes
// tests/cuts, loops over Acpparatus's and PhysicsModules,
// and executes the output routines.
THcAnalyzer* analyzer = new THcAnalyzer;
// A simple event class to be output to the resulting tree.
// Creating your own descendant of THaEvent is one way of
// defining and controlling the output.
THaEvent* event = new THaEvent;
// Define the run(s) that we want to analyze.
// We just set up one, but this could be many.
THaRun* run = new THaRun( pathList, Form(RunFileNamePattern, RunNumber) );
// Set to read in Hall C run database parameters
run->SetRunParamClass("THcRunParameters");
// Eventually need to learn to skip over, or properly analyze
// the pedestal events
run->SetEventRange(1, MaxEvent); // Physics Event number, does not
// include scaler or control events.
run->SetNscan(1);
run->SetDataRequired(0x7);
run->Print();
// Define the analysis parameters
TString ROOTFileName = Form(ROOTFileNamePattern, RunNumber, MaxEvent);
analyzer->SetCountMode(2); // 0 = counter is # of physics triggers
// 1 = counter is # of all decode reads
// 2 = counter is event number
analyzer->SetEvent(event);
// Set EPICS event type
analyzer->SetEpicsEvtType(180);
// Define crate map
analyzer->SetCrateMapFileName("MAPS/db_cratemap.dat");
// Define output ROOT file
analyzer->SetOutFile(ROOTFileName.Data());
// Define output DEF-file
analyzer->SetOdefFile("DEF-files/HMS/PRODUCTION/hstackana_production_kpp.def");
// Define cuts file
analyzer->SetCutFile("DEF-files/HMS/PRODUCTION/hstackana_production_cuts_kpp.def"); // optional
// File to record cuts accounting information for cuts
analyzer->SetSummaryFile(Form("REPORT_OUTPUT/HMS/PRODUCTION/summary_production_%d_%d.report", RunNumber, MaxEvent)); // optional
// Start the actual analysis.
analyzer->Process(run);
// Create report file from template.
analyzer->PrintReport("TEMPLATES/HMS/PRODUCTION/hstackana_production_kpp.template",
Form("REPORT_OUTPUT/HMS/PRODUCTION/replay_hms_production_%d_%d.report", RunNumber, MaxEvent));
}
TEMPLATES/HMS/PRODUCTION/hstackana_production_kpp.template 0 → 100644
+ 107
0
View file @ 92329aa7
Run #{gen_run_number}
**************************
* General Run Information
**************************
1 MhZ Pulses : {H.1Mhz.scaler}
Run Length : {H.1Mhz.scalerTime:%.3f} sec
***********
* Beamline
***********
BCM1 Current: {H.BCM1.scalerCurrent:%.3f} uA
BCM2 Current: {H.BCM2.scalerCurrent:%.3f} uA
Unser Current: {H.Unser.scalerCurrent:%.3f} uA
With no cuts on BCM{gBCM_Current_threshold_index+1}.
BCM1 Counts: {H.BCM1.scaler} Total Charge: {H.BCM1.scalerCharge:%.3f} uC
BCM2 Counts: {H.BCM2.scaler} Total Charge: {H.BCM2.scalerCharge:%.3f} uC
Unser Counts: {H.Unser.scaler} Total Charge: {H.Unser.scalerCharge:%.3f} uC
Cut on BCM{gBCM_Current_threshold_index+1} current of {gBCM_Current_threshold} uA. Beam over threshold for {H.1Mhz.scalerTimeCut:%.3f}s, or {((H.1Mhz.scalerTimeCut/H.1Mhz.scalerTime)*100.):%.3f}% of total run time.
BCM1 Counts: {H.BCM1.scalerCut} Total Charge: {H.BCM1.scalerChargeCut:%.3f} uC
BCM2 Counts: {H.BCM2.scalerCut} Total Charge: {H.BCM2.scalerChargeCut:%.3f} uC
Unser Counts: {H.Unser.scalerCut} Total Charge: {H.Unser.scalerChargeCut:%.3f} uC
{hdc_plane_names}
Horizontal drift chamber z positions:
Chamber 1: {hdc_zpos[0]:%6.2f} {hdc_zpos[1]:%6.2f} {hdc_zpos[2]:%6.2f}
{hdc_zpos[3]:%6.2f} {hdc_zpos[4]:%6.2f} {hdc_zpos[5]:%6.2f}
Chamber 2: {hdc_zpos[6]:%6.2f} {hdc_zpos[7]:%6.2f} {hdc_zpos[8]:%6.2f}
{hdc_zpos[9]:%6.2f} {hdc_zpos[10]:%6.2f} {hdc_zpos[11]:%6.2f}
HMS triggers: {hms_trigs.npassed}
Hodo efficiency:
Plane 1: {hhodo_plane_AND_eff[0]}
Plane 2: {hhodo_plane_AND_eff[1]}
Plane 3: {hhodo_plane_AND_eff[2]}
Plane 4: {hhodo_plane_AND_eff[3]}
S1XY : {hhodo_s1XY_eff}
S2XY : {hhodo_s2XY_eff}
STOF: {hhodo_stof_eff}
3_of_4 EFF : {hhodo_3_of_4_eff}
4_of_4 EFF : {hhodo_4_of_4_eff}
Rate : {H.Trig.scalerRate/1000.:%7.3f} kHz
Live Time : {(hms_trigs.npassed / H.Trig.scaler)*100.0:%3.2f} %
Dead Time : {100.0 - (hms_trigs.npassed / H.Trig.scaler)*100.0:%3.2f} %
hmsDC1Planes_large Counts: {hmsDC1Planes_large.npassed} /hms_trigs : {hmsDC1Planes_large.npassed/hms_trigs.npassed}
hmsDC2Planes_large Counts: {hmsDC2Planes_large.npassed} /hms_trigs : {hmsDC2Planes_large.npassed/hms_trigs.npassed}
hmsDC1Planes6 Counts: {hmsDC1Planes6hits.npassed} /hms_trigs : {hmsDC1Planes6hits.npassed/hms_trigs.npassed}
hmsDC2Planes6 Counts: {hmsDC2Planes6hits.npassed} /hms_trigs : {hmsDC2Planes6hits.npassed/hms_trigs.npassed}
hmsDC1x1Planes5 Counts: {hmsDC1_5hits_x1.npassed} eff : {hmsDC1_6hits_x1.npassed/hmsDC1_5hits_x1.npassed}
hmsDC1u1Planes5 Counts: {hmsDC1_5hits_u1.npassed} eff : {hmsDC1_6hits_u1.npassed/hmsDC1_5hits_u1.npassed}
hmsDC1y2Planes5 Counts: {hmsDC1_5hits_y2.npassed} eff : {hmsDC1_6hits_y2.npassed/hmsDC1_5hits_y2.npassed}
hmsDC1v1Planes5 Counts: {hmsDC1_5hits_v1.npassed} eff : {hmsDC1_6hits_v1.npassed/hmsDC1_5hits_v1.npassed}
hmsDC1y1Planes5 Counts: {hmsDC1_5hits_y1.npassed} eff : {hmsDC1_6hits_y1.npassed/hmsDC1_5hits_y1.npassed}
hmsDC1x2Planes5 Counts: {hmsDC1_5hits_x2.npassed} eff : {hmsDC1_6hits_x2.npassed/hmsDC1_5hits_x2.npassed}
hmsDC2x1Planes5 Counts: {hmsDC2_5hits_x1.npassed} eff : {hmsDC2_6hits_x1.npassed/hmsDC2_5hits_x1.npassed}
hmsDC2u1Planes5 Counts: {hmsDC2_5hits_u1.npassed} eff : {hmsDC2_6hits_u1.npassed/hmsDC2_5hits_u1.npassed}
hmsDC2y2Planes5 Counts: {hmsDC2_5hits_y2.npassed} eff : {hmsDC2_6hits_y2.npassed/hmsDC2_5hits_y2.npassed}
hmsDC2v1Planes5 Counts: {hmsDC2_5hits_v1.npassed} eff : {hmsDC2_6hits_v1.npassed/hmsDC2_5hits_v1.npassed}
hmsDC2y1Planes5 Counts: {hmsDC2_5hits_y1.npassed} eff : {hmsDC2_6hits_y1.npassed/hmsDC2_5hits_y1.npassed}
hmsDC2x2Planes5 Counts: {hmsDC2_5hits_x2.npassed} eff : {hmsDC2_6hits_x2.npassed/hmsDC2_5hits_x2.npassed}
*****************************
*HMS TRACKING EFFICIENCIES *
*****************************
htrig : {hmscoin_event.npassed}
hhitslt = passed hits/cham : {hmsHitsLt.npassed}
hhitsplanes = +planes >= 5/6 : {hmsHitsPlanes.npassed}
hhitsplanessps = + sps : {hSpacePoints.npassed}
hhitsplanesspsstubs +stub : {hSpacePointsStub.npassed}
hsfoundtrack : {hFoundTrack.npassed}
hscleantrack : {hCleanTrack.npassed}
hstublt = passed stub tests : {hStubLT.npassed}
h1hitslt : {hms1HitsLt.npassed}
h2hitslt : {hms2HitsLt.npassed}
h1planesgt : {hmsDC1PlanesGT.npassed}
h2planesgt : {hmsDC2PlanesGT.npassed}
hplanesgt = gt 5 planes/cham : {hmsPlanesGT.npassed}
f1hspacepoints : {f1HSpacePoints.npassed}
f2hspacepoints : {f2HSpacePoints.npassed}
htest1=p hits/planes, f sp : {hTest1.npassed}
htest2=p sp, f stubs : {hTest2.npassed}
hdid : {HMSScinDid.npassed}
hdide : {HMSScinDide.npassed}
hdidh : {HMSScinDidh.npassed}
hscinshould : {HMSScinShould.npassed}
hscinshoulde : {HMSScinShoulde.npassed}
hscinshouldh : {HMSScinShouldh.npassed}
SING FID TRACK EFFIC : {HMSScinDid.npassed/(HMSScinShould.npassed+0.0001):%8.4f} +- {(sqrt(HMSScinShould.npassed-HMSScinDid.npassed)/(HMSScinShould.npassed+.0001)):%8.4f}
E SING FID TRACK EFFIC : {HMSScinDide.npassed/(HMSScinShoulde.npassed+0.0001):%8.4f} +- {(sqrt(HMSScinShoulde.npassed-HMSScinDide.npassed)/(HMSScinShoulde.npassed+.0001)):%8.4f}
HADRON SING FID TRACK EFFIC : {HMSScinDidh.npassed/(HMSScinShouldh.npassed+0.0001):%8.4f} +- {(sqrt(HMSScinShouldh.npassed-HMSScinDidh.npassed)/(HMSScinShouldh.npassed+.0001)):%8.4f}
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